Daily Production Report
Project report
Daily production Report – Project report
Revision history
Date
21.12.2006
Revision number
Draft
Comments
For review
26.01.2007
Version 1
Added example XML document
in appendix 2.
Table of content
1
Introduction ........................................................................................................................ 3
1.1
Participants in the Daily Production Report project................................................... 4
2
About the deliverables........................................................................................................ 4
2.1
Terminology ............................................................................................................... 4
2.1.1
How to read it..................................................................................................... 4
2.2
XML schemas ............................................................................................................ 7
3
ISO 15926 general description........................................................................................... 7
4
Integrated Information Platform for Reservoir and subsea production systems project
(IIP) ............................................................................................................................................ 8
4.1
About the terminology delivered........................... Feil! Bokmerke er ikke definert.
Appendix Terminology .......................................................................................................... 1
Temperature terms.............................................................................................................. 1
Pressure terms ........................................................................................................................ 2
Volume ............................................................................................................................... 3
General volume terms ...................................................................................................... 16
Mass terms............................................................................................................................ 18
Gas mass terms................................................................................................................. 19
Liquid mass terms ............................................................................................................ 22
2
Daily production Report – Project report
1 Introduction
This document provides an overview of the deliverables from the OLF project Daily
Production Report.
The project started 2004, and ended January 2006 with a recommendation from the project
group and OLF to start implementing the reporting solution in the licences on the Norwegian
Continental Shelf.
The objective of the project was to develop XML schemas for the exchange of daily
production reports between operators and partners on the Norwegian Continental shelf. The
XML schemas were based on ISO 15926 reference data.
The schemas and reference data is important building bricks in a standardized reporting
setting as shown in figure 1 below.
Figure 1: Schematics of a standardized reporting system as used in Daily Drilling Report.
Standardized reporting system overview
Operator
LicenseWeb
Authorities, operator
The deliverables from theRDL
project are:
& partners
1. XML schemas developed in the project for the exchange of daily production reports.
The schemas are further developed and maintained by Energistics. And they are
accessible from their
homepage. (www.ernergistics.org) Excel reports
XML
Internal
2. The terminologyfile
which the XML schemas are based on. The
terminology
Std.
reports is
License Web
system
documented and stored in ISO 15926 (Reference data library
can
be accessed
Non-std.
reports from
www.posccaesar.com)
XML
file
Report
The document also contains a description of ISO 15926 (both the data model and the RDL), a
description of the IIP project, and an explanation on how to use the terminology.
3
Daily production Report – Project report
1.1 Participants in the Daily Production Report project
The following companies and organizations have participated and contributed in the project:
2 About the deliverables
2.1 Terminology
The terminology (Appendix 1) included in this document is a part of the model – or Reference
Data Library - developed in the project. The library is the IPR of the POSC Caesar
Association and is intended for future standardization at ISO.
A tabular version of the terminology delivered in the project can be found in appendix 1. For
a complete overview the reader will have to access the Reference Data System (RDS) which
is the application in which the reference data are stored and maintained. The RDS can be
accessed by following this link: http://rds.posccaesar.com. A “User guide” is provided in the
application.
2.1.1 How to read it
The types of data that are used when describing ‘things’ can be classified as either data about
‘objects’ or ‘properties’ related to objects.
Each type of object and property is documented in this document using:
A term
A definition
A typical PM for a wellhead with Christmas tree is shown in figure 2 below. Examples of
terminology related to the Christmas tree are shown in table 1 and table 2.
4
Daily production Report – Project report
Figure 1: Drawing of a wellhead with Christmas tree. Names of some objects, or parts
thereof, are shown in boxes. Properties are in italic.
All objects are arranged in super-subtype hierarchies where the more specialized object is a
subtype of a more generic object. This can bee seen from the example table, Table 1, which
follow.
In Table 1 it should be clear that a “Subsea horizontal Christmas tree” is a subtype of a
“HORIZONTAL CHRISTMAS TREE” which again is a subtype of a “CHRISTMAS TREE”.
Note that a “SUBSEA HORIZONTAL CHRISTMAS TREE” is also a subtype of a
“SUBSEA CHRISTMAS TREE”; the second specialization is recorded in the RDL, but has
been left out in the documentation table to try to limit the size of the table.
Table 1: A typical record documenting Christmas tree types:
TERM
CHRISTMAS TREE
HORIZONTAL CHRISTMAS TREE
SUBSEA HORIZONTAL
CHRISTMAS TREE
SURFACE HORIZONTAL
CHRISTMAS TREE
DEFINITION
An artefact that is an assembly of pipes and piping parts, with valves and
associated control equipment that is connected to the top of a wellhead
and is intended for control of fluid from a well.
A Christmas tree configured with the master valves and flow-control
equipment on a horizontal axis to minimize the assembly height.
A horizontal Christmas tree design for subsea applications. The valves
can be both bolted on or built in.
A horizontal Christmas tree design for surface (dry land) applications.
The valves are normally bolted on.
5
Daily production Report – Project report
VERTICAL CHRISTMAS TREE
A Christmas tree configured with the master valves and flow-control
equipment on a vertical axis that is the main axis of the tree.
SUBSEA VERTICAL CHRISTMAS
TREE
SUBSEA CHRISTMAS TREE
A vertical Christmas tree design for subsea applications. The valves are
normally built-in as part of the tree.
A christmas tree for use in a subsea environment. Will normally comprise
a hollow, pressure rated body with the valves either built in or bolted on.
CHRISTMAS TREE 10K
A Christmas tree rated for a pressure of 10 000 PSI (69,0 MPa)
CHRISTMAS TREE 15K
CHRISTMAS TREE 5K
A Christmas tree rated for a pressure of 15 000 PSI (103,5 MPa)
A Christmas tree rated for a pressure of 5 000 PSI (34,5 MPa)
SURFACE CHRISTMAS TREE
A Christmas tree for use on land. Will normally comprise a number of
assembled parts, e.g. casing spools, with the valves bolted onto the
outside.
The two dimensional structure in the tables of this document is only suitable to show the
specialization hierarchy, as shown in the example in Table 1. In the Reference Data Library
(RDL) other relations between objects are recorded. As shown in the example in Table 2, a
“HORIZONTAL CHRISTMAS TREE” will normally have parts called a “CHRISTMAS
TREE CAP”, “WELL PRODUCTION TUBING ASSEMBLY”, “WELL CASING
ASSEMBLY”, “CASING HANGER” and “CHRISTMAS TREE VALVES” which again
might be “ANNULUS VENT VALVE”, “ANNULUS MASTER VALVE”, “ANNULUS
WING VALVE”, “ANNULUS CIRCULATION VALVE”, “CROSS OVER VALVE”,
“CHEMICAL INJECTION VALVE”, “PRODUCTION MASTER VALVE” or
“PRODUCTION WING VALVE”, and so on. These kinds of relations are not shown explicit
in the terminology tables, but they exist in the RDL. An example might be clarifying: If a user
is looking for the term “CASING HANGER” it will probably not be found under
“HORIZONTAL CHRISTMAS TREE” in the terminology of this document. In stead it will
be found under the less specialized term STRING HANGER”, which is the “super class” of
“CASING HANGER”. In the RDL, however, the user will be able to look up
“HORIZONTAL CHRISTMAS TREE” and see that “CASING HANGER” is a part of it.
Table 2:.Typical associations and properties made to a horizontal Christmas tree:
TERM
HORIZONTAL CHRISTMAS TREE
DEFINITION
A Christmas tree configured with the master valves and flow-control
equipment on a horizontal axis to minimize the assembly height.
CHRISTMAS TREE CAP
An artefact used to cap the top of the christmas tree, to prevent ingress
of contaminants, such as seawater.
WELL PRODUCTION TUBING ASSEMBLY
An artefact designed to control production of the well. It normally
consists of a string of tubing pipes reaching down to (one or more)
productive zones in a well.
An artefact which is the assembly of casing pies, casing hanger and
seals that is lowered into a well, and provides structural support for the
borehole.
A string hanger designed to suspend a well casing string down the well.
The casing hanger is either screwed onto the top of each casing string
or is held by slips. Acts as a wedge in a corresponding space inside the
casing head, casing spool or wellhead
WELL CASING ASSEMBLY
CASING HANGER
CHRISTMAS TREE VALVE
ANNULUS VENT VALVE
PRODUCTION MASTER VALVE
PRODUCTION WING VALVE
ANNULUS MASTER VALVE
ANNULUS WING VALVE
A valve which is located on a christmas tree, for injection or fluid
control.
A valve which is located in the annulus outlet of the christmas tree for
venting overpressure from the well annulus.
A valve which is located in the production outlet of the christmas tree
being the main production barrier valve
A valve which is located in the production outlet of the christmas tree
being the secondary production barrier valve
A valve which is located in the annulus outlet of the christmas tree
being the main annulus barrier valve
A valve which is located in the annulus outlet of the christmas tree
being the secondary annulus barrier valve
6
Daily production Report – Project report
ANNULUS CIRCULATION VALVE
A valve which is located in the annulus outlet of the christmas tree for
use when circulating in the well
CROSSOVER VALVE
A valve which is located in the crossover loop
CHEMICAL INJECTION VALVE
A valve which is used to control injection of chemicals into the well or
flowline
A plug used in a tubing hanger to block the tubing hanger bore.
TH CROWN PLUG
TUBING HANGER
WELL CASING STRING
WELL TUBING STRING
WELLHEAD HOUSING
A string hanger designed to suspend a well tubing string down the well.
The tubing hanger uses slips or a bolted flange to hold the tubing string
and fits as a wedge in the tubing head.
An artefact that consists of pipes assembled end to end which is
intended to line the walls of a drilled well.
An artefact that consists of lengths of pipe assembled end to end that
extends from a producing zone to the wellhead, and used in a well to
conduct fluids to the surface.
An artefact which is a thick-walled forged cylindrical pipe with one end
attached to the surface (normally 20") casing string and the other end
has couplings for connecting to a christmas tree.
2.2 XML schemas
Based on the terminology XML schemas were developed, and these were developed by POSC
(Now known as Energistics) and TietoEnator. The schemas were included in the WITSML
portfolio of schemas(www.witsml.org). The XML schemas are object oriented. For simplicity
an example XML document instance based on the XML schemas is shown in appendix 2.
3 ISO 15926 general description
The scope of ISO 15926 can be divided into two main categories:
1. Support exchange of data between computer systems without loss of, or confusion in
the semantic meaning of data.
2. To provide a platform for integration of life cycle data across multiple applications
and across disciplines.
Data integration is combining information derived from several independent sources into one
coherent data set. Because independent sources often have overlapping scopes, combining the
data requires overlaps to be recognized, duplications to be removed, and possibly new data to
be represented. To succeed in the role of integration, a data model must have a context that
includes all the possible data wanted or required.
To support this, ISO 15926 defines a generic and conceptual data model that is independent of
any particular industry and application, and a Reference Data Library (RDL) that extends the
data model to include the specific needs of any industry or application. The conceptual model
defines the rules for describing ‘things’ and basic semantics, while the Reference Data (RD)
extends the semantics into specific industries or business areas by establishing a set of
terminology that is used to describe object types in specific industries. Where industries are
using same types of objects, e.g. pipes, cables, steel profiles etc., RD can be reused across
industries. Whenever a term is used across industries/disciplines with different meanings the
process of establishing the RD ensures unambiguous terminology. This is required both for
unambiguous exchange of data and for integration of data for an actual project. A
consequence of this approach is that data is defined independent of applications. This
approach therefore also supports the introduction of new work processes and business process
reengineering.
The generic and conceptual design of ISO 15926 allows for extensions to cover new areas by
only adding new RD.
7
Daily production Report – Project report
To ensure that the data necessary for a particular type of objects or subject area is covered,
Product Models (PM) using Reference Data are established for the relevant types of products.
These PMs can be seen as templates for the types or groups of data required for the actual
type of product. The intention is that these PMs shall describe all data required for a type of
product over its life cycle. If additional applications need to be supported, the actual PMs
could be extended by adding the additional RD required to fully supporting the requirements
of the additional application. This results in integrating the data needs for the new application
with the data needs that have already been defined for existing applications. PMs may be
defined for types of mechanical products, systems, documents, reservoirs, organizations and
activities. In this manner records are built for what is known about a type of object.
4 Integrated Information Platform for Reservoir and
subsea production systems project (IIP)
The IIP project is a three year research project which commenced in June 2004. It is funded
by the Norwegian Research Council and the project participants.
The following are the participating companies in the IIP project:
The IIP project has the objective of identifying an optimal set of real time data from
reservoirs, wells and subsea production facilities, partially improving and integrating this
information to provide an open and standardised information platform using ISO 15926-2.
The project will be enabled by integrating the ontologies from several industrial data and
technical standards and adding these ontologies to ISO 15926-4 (Reference Data Library).
The number of information types and the broad scope of this integration in an open solution
make this project unique. In addition, safety requirements according to the Norwegian
Petroleum Directorate (NPD) will be met.
8
Daily production Report – Project report
The IIP project focus is to support integration of applications related to subsea oil&gas
exploration and production. In order to support this, the project is developing PMs for
reservoir and subsea production systems by using information from the following areas:
- Drilling
- Production
- Safety and automation system
- Subsea equipment
- Condition monitoring
9
Appendix 1 - Terminology
Appendix
Appendix 1 - Terminology
Temperature terms
Term
Definition
The degree or intensity of heat or cold as measured on a thermometric
scale, and a measure of whether two systems are relatively hot or cold
with respect to one another. Two systems brought into contact will, after
sufficient time, be in thermal equilibrium and will have the same
temperature.
A temperature which is the quotient obtained by dividing the total sum of
a set of temperature measurements by the total number of
measurements.
TEMPERATURE
AVERAGE TEMPERATURE
AVERAGE BOTTOMHOLE
TEMPERATURE
DAILY AVERAGE BOTTOMHOLE
TEMPERATURE DURING
INJECTION
DAILY AVERAGE
BOTTOMHOLE
TEMPERATURE DURING
INJECTION - DEG F
BOTTOMHOLE TEMPERATURE
BOTTOMHOLE TEMPERATURE
AVERAGED DURING PRODUCTION
BOTTOMHOLE TEMPERATURE
AVERAGED DURING PRODUCTION
- DEG C
BOTTOMHOLE TEMPERATURE
DIFFERENCE - DEG C
An average temperature at the bottom of a well.
An average bottomhole temperature that is the daily (24 hour) average
value of the bottomhole temperature during injection of the well at a given
date.
A daily average bottomhole temperature during injection that is
expressed in degree fahrenheit.
A temperature at the bottom of a well.
A bottomhole temperature that is the daily (24 hour) averaged value of
the temperature in bottomhole during production at a given date.
A bottomhole temperature averaged during production that is expressed
in degree celsius.
A bottomhole temperature difference that is given in degree celsius.
A bottomhole temperature that is the arithmetic difference between two
bottomhole temperature values since last time it was reported during
production, delta T.
A temperature at the location of an inlet.
BOTTOMHOLE TEMPERATURE
DIFFERENCE DURING PRODUCTION
INLET TEMPERATURE
INLET TEMPERATURE - DEG C
An inlet temperature that is measured in DEG C.
MEASURED AMBIENT TEMPERATURE
MEASURED AMBIENT TEMPERATURE DEG C
OUTLET TEMPERATURE
A temperature that is the actual temperature of the ambient atmosphere.
OUTLET TEMPERATURE - DEG C
TREATED PRODUCED WATER OUTLET
TEMPERATURE
TREATED PRODUCED WATER
OUTLET TEMPERATURE - DEG C
WELLHEAD TEMPERATURE
An outlet temperature that is measured in DEG C.
An outlet temperature that is the actual temperature of the treated
produced water when drained to sea.
A treated produced water outlet temperature that is measured in degree
celsius.
A temperature measured at the wellhead
A wellhead temperature averaged that is the daily (24 hour) averaged
value of the temperature in the wellhead during injection of the well at a
given date.
A measured ambient temperature measured in degree celsius.
A temperature at the location of an outlet.
DAILY AVERAGE WELLHEAD
TEMPERATURE DURING INJECTION
DAILY AVERAGE WELLHEAD
TEMPERATURE DURING
INJECTION - DEG F
A daily average wellhead temperature during injection that is expressed
in degree fahrenheit.
A wellhead temperature averaged that is the daily (24 hour) averaged
value of the temperature in the wellhead during testing of the well at a
given date.
DAILY AVERAGE WELLHEAD
TEMPERATURE DURING TESTING
DAILY AVERAGE WELLHEAD
TEMPERATURE DURING TESTING DEG F
WELLHEAD TEMPERATURE AVERAGED
DAILY AVERAGE WELLHEAD
TEMPERATURE DURING
INJECTION
DAILY AVERAGE WELLHEAD
TEMPERATURE DURING TESTING
A daily average wellhead temperature during testing that is expressed in
degree fahrenheit.
A wellhead temperature that is averaged.
A wellhead temperature averaged that is the daily (24 hour) averaged
value of the temperature in the wellhead during injection of the well at a
given date.
A wellhead temperature averaged that is the daily (24 hour) averaged
value of the temperature in the wellhead during testing of the well at a
given date.
A-1
Appendix 1 - Terminology
Term
Definition
WELLHEAD TEMPERATURE
AVERAGED DURING PRODUCTION
WELLHEAD TEMPERATURE
AVERAGED DURING
PRODUCTION - DEG C
A wellhead temperature averaged that is the daily (24 hour) averaged
value of the temperature in the wellhead during production at a given
date.
A wellhead temperature averaged during production that is expressed in
degree celsius.
A wellhead temperature that is the arithmetric difference between two
wellhead temperature values since last time it was reported during
production, delta T.
WELLHEAD TEMPERATURE
DIFFERENCE DURING PRODUCTION
WELLHEAD TEMPERATURE
DIFFERENCE DURING
PRODUCTION - DEG C
A wellhead temperature difference during production that is expressed in
degree celsius.
Pressure terms
Term
Definition
Force perpendicular to the area divided by area. p = dF/dA
where dF is the perpendicular component of the force acting on
the area element dA. The pressure is positive when the force is
acting into the area.
A pressure that is representing the weight of the air column
standing vertically over the place where the measurement is
done.
An atmospheric pressure that is measured in atmospheres.
PRESSURE
ATMOSPHERIC PRESSURE
ATMOSPHERIC PRESSURE - ATM
ATMOSPHERIC PRESSURE - HPA
AVERAGE PRESSURE
AVERAGE BOTTOMHOLE PRESSURE
AVERAGE BOTTOMHOLE PRESSURE
DURING PRODUCTION
AVERAGE BOTTOMHOLE PRESSURE
DURING PRODUCTION - BARG
AVERAGE BOTTOMHOLE PRESSURE
DURING PRODUCTION
DAILY AVERAGE BOTTOMHOLE
PRESSURE DURING INJECTION
DAILY AVERAGE BOTTOMHOLE
PRESSURE DURING INJECTION BARG
A daily average bottomhole pressure during injection that is
expressed in barg.
DAILY AVERAGE BOTTOMHOLE
PRESSURE DURING INJECTION
BOTTOMHOLE PRESSURE
BOTTOMHOLE PRESSURE DIFFERENCE
DURING PRODUCTION
BOTTOMHOLE PRESSURE DIFFERENCE
DURING PRODUCTION - BARG
INLET PRESSURE
INLET PRESSURE - BARG
An average bottomhole pressure that is the daily (24 hour)
average value of the bottomhole pressure during injection of the
well at a given date.
A pressure at the bottom of a well.
A bottomhole pressure that is the arithmetric difference between
two bottomhole pressure values since the last time it was
reported during production, delta P.
A bottomhole pressure difference during production that is
expressed in barg.
A pressure at the location of an inlet.
An inlet pressure that is measured in barg.
OUTLET PRESSURE
A pressure at the location of an outlet.
OUTLET PRESSURE - BARG
VAPOUR PRESSURE
REID VAPOUR PRESSURE
REID VAPOUR PRESSURE - BARA
REID VAPOUR PRESSURE EXPORT BARA
REID VAPOUR PRESSURE EXPORT
An atmospheric pressure that is measured in hectopascal.
A pressure which is the quotient obtained by dividing the total
sum of a set of pressure measurements by the total number of
measurements.
An average pressure at the bottom of a well.
An average bottomhole pressure that is the daily (24 hour)
averaged value of the pressure in bottomhole during production,
delta P.
An average bottomhole pressure during production that is
expressed in barg.
An average bottomhole pressure that is the daily (24 hour)
averaged value of the pressure in bottomhole during production,
delta P.
An average bottomhole pressure that is the daily (24 hour)
average value of the bottomhole pressure during injection of the
well at a given date.
An outlet pressure that is measured in barg.
A pressure of the vapour phase of a substance over a liquid
phase when the phases are in equilibrium.
A vapour pressure which is a measure of voliatility of a liquid
fuel, its ability to vaporise. An RVP pressure must be
determined in a standard cell, i.e. measured by a REID test
equipment according to ASTM D323.
A reid vapour pressure measured in bara
A reid vapour pressure export that is measured in bara.
A reid vapour pressure that is the reid vapour pressure for an
exported product.
A-2
Appendix 1 - Terminology
Term
Definition
REID VAPOUR PRESSURE FOR
CRUDE - BARA
REID VAPOUR PRESSURE FOR CRUDE
REID VAPOUR PRESSURE FOR HCCONDENSATE - BARA
REID VAPOUR PRESSURE FOR HCCONDENSATE
REID VAPOUR PRESSURE FOR OIL
LOADED TO SHIP - BARA
REID VAPOUR PRESSURE FOR OIL
LOADED TO SHIP
A reid vapour pressure for crude that is measured in bara.
A reid vapour pressure that is the RVP for crude.
A reid vapour pressure for hc-condensate measured in bara.
A reid vapour pressure that is the RVP for hc-codensate.
A reid vapour pressure for oil loaded to ship that is measured in
bara.
A reid vapour pressure that is the RVP for the oil loaded to ship.
A vapour pressure which is a measure of voliatility of a liquid
fuel, its ability to vaporise. This is the true pressure in
contradiction to Reid Vapour Pressure witch is measured in a
standard cell.
A true vapour pressure measured in bara
TRUE VAPOUR PRESSURE
TRUE VAPOUR PRESSURE - BARA
TRUE VAPOUR PRESSURE FOR
EXPORT - BARA
A true vapour pressure for export that is measured in bara.
TRUE VAPOUR PRESSURE FOR EXPORT
WELLHEAD PRESSURE
ACTUAL WELLHEAD PRESSURE DURING
INJECTION
ACTUAL WELLHEAD PRESSURE DURING
INJECTION - BARG
WELLHEAD LOWER LIMIT PRESSURE
WELLHEAD LOWER LIMIT PRESSURE PSIG
WELLHEAD PRESSURE AVERAGED
DAILY AVERAGED WELLHEAD
PRESSURE DURING INJECTION BARG
A true vapour pressure that is the true vapour pressure for an
exported product.
A pressure that is the pressure registerd in the wellhead of a
well.
A wellhead pressure that is the actual (current) pressure on the
wellhead during injection of the well.
An actual wellhead pressure during injection that is measured in
barg.
A wellhead pressure that is the lower limit wellhead pressure at
which the monitoring system will give alarm.
A wellhead lower limit pressure that is measured in pounds per
square inch gauge.
A wellhead pressure that is averaged.
A daily averaged wellhead pressure during injection that is
measured in barg.
DAILY AVERAGED WELLHEAD
PRESSURE DURING INJECTION
DAILY AVERAGED WELLHEAD
PRESSURE DURING TESTING - BARG
DAILY AVERAGED WELLHEAD
PRESSURE DURING TESTING
WELLHEAD PRESSURE AVERAGED DURING
PRODUCTION
WELLHEAD PRESSURE AVERAGED
DURING PRODUCTION - BARG
WELLHEAD PRESSURE DIFFERENCE
DURING PRODUCTION
WELLHEAD PRESSURE DIFFERENCE
DURING PRODUCTION - BARG
A wellhead pressure averaged that is the daily (24 hour)
averaged value of the pressure on the wellhead during injection
of the well at a given date.
A daily averaged wellhead pressure during testing that is
measured in barg.
A wellhead pressure averaged that is the daily (24 hour)
averaged value of the pressure on the wellhead during well
testing at a given date.
A wellhead pressure averaged that is the daily (24 hour)
averaged value of the pressure in the wellhead during production
at a given date.
A wellhead pressure averaged during production that is
measured in bar gauge.
A wellhead pressure that is the arithmetric difference between
two wellhead pressure values since last time it was reported
during production, delta P.
A wellhead pressure difference during production that is given in
barg.
Volume
Gas volume terms
Term
Definiton
GAS
VOLUME
ESTIMATED LOSS OF GAS DELIVERIES
ETHANE GAS
VOLUME
A volume of gas obeing the physical law of gases.
A gas volume that is the estimated volume of lost gas deliveries.
A gas volume that is the volume of ethane gas.
DAILY ETHANE GAS EXPORT VOLUME
DAILY ETHANE GAS EXPORT VOLUME
- SM3
FLARED GAS
VOLUME
An ethane gas volume that is the daily (24 hour) volume of ethane
gas exported from a petroleum installation at a given date.
A daily ethane gas export volume that is measured in standard cubic
metre.
A gas volume that is the volume of gas that has been flared off.
A-3
Appendix 1 - Terminology
Term
Definiton
A flared gas volume that is the daily (24 hour) volume of gas flared off
DAILY FLARED GAS VOLUME
at a given date.
A daily flared gas volume that is measured in thousand standard
DAILY FLARED GAS VOLUME - MSCF
cubic feet.
DAILY FLARED GAS VOLUME - SM3
A daily flared gas volume that is measured in standard cubic metre.
A flared gas volume that is the daily (24 hour) volume of high
DAILY FLARED HP GAS VOLUME
pressure gas flared off at a given date.
A daily flared hp gas volume that is measured in standard cubic
DAILY FLARED HP GAS VOLUME - SM3
metre.
A flared gas volume that is the daily (24 hour) volume of low pressure
DAILY FLARED LP GAS VOLUME
gas flared off at a given date.
DAILY FLARED LP GAS VOLUME - SM3 A daily flared lp gas volume that is measured in standard cubic metre.
MONTH TO-DATE ACCUMULATED FLARED
A flared gas volume that is the accumulated volume of gas flared off
GAS VOLUME
to-date in reporting month.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated flared gas volume that is measured in
FLARED GAS VOLUME - MSCF
thousand standard cubic feet.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated flared gas volume that is measured in
FLARED GAS VOLUME - SM3
standard cubic metre.
MONTH TO-DATE ACCUMULATED FLARED
A flared gas volume that is the accumulated volume of high pressure
HP GAS VOLUME
gas flared off to-date in reporting month.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated flared hp gas volume that is measured
FLARED HP GAS VOLUME - SM3
in standard cubic metre.
MONTH TO-DATE ACCUMULATED FLARED
A flared gas volume that is the accumulated volume of low pressure
LP GAS VOLUME
gas flared off to-date in reporting month.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated flared lp gas volume that is measured in
FLARED LP GAS VOLUME - SM3
standard cubic metre.
MONTH TO-DATE AVERAGE FLARED GAS
A flared gas volume that is the average volume of gas flared off per
VOLUME
day to-date in reporting month.
MONTH TO-DATE AVERAGE FLARED
A month to-date average flared gas volume that is measured in
GAS VOLUME - MSCF
thousand standard cubic feet.
MONTH TO-DATE AVERAGE FLARED
A month to-date average flared gas volume that is measured in
GAS VOLUME - SM3
standard cubic metre.
MONTH TO-DATE AVERAGE FLARED HP
A flared gas volume that is the average volume of high pressure gas
GAS VOLUME
flared off per day to-date in reporting month.
MONTH TO-DATE AVERAGE FLARED
A month to-date average flared hp gas volume that is measured in
HP GAS VOLUME - SM3
standard cubic metre.
MONTH TO-DATE AVERAGE FLARED LP
A flared gas volume that is the average volume of low pressure gas
GAS VOLUME
flared off per day to-date in reporting month.
MONTH TO-DATE AVERAGE FLARED
A month to-date average flared lp gas volume that is measured in
LP GAS VOLUME - SM3
standard cubic metre.
YEAR TO-DATE ACCUMULATED FLARED
A flared gas volume that is the accumulated volume of gas flared off
GAS VOLUME
to-date in reporting year.
YEAR TO-DATE ACCUMULATED
A year to-date accumulated flared gas volume that is measured in
FLARED GAS VOLUME - MSCF
thousand standard cubic feet.
YEAR TO-DATE ACCUMULATED
A year to-date accumulated flared gas volume that is measured in
FLARED GAS VOLUME - SM3
standard cubic metre.
YEAR TO-DATE ACCUMULATED FLARED HP A flared gas volume that is the accumulated volume of high pressure
GAS VOLUME
gas flared off to-date in reporting year.
YEAR TO-DATE ACCUMULATED
A year to-date accumulated flared hp gas volume that is measured in
FLARED HP GAS VOLUME - SM3
standard cubic metre.
YEAR TO-DATE ACCUMULATED FLARED LP A flared gas volume that is the accumulated volume of low pressure
GAS VOLUME
gas flared off to-date in reporting year.
YEAR TO-DATE ACCUMULATED
A year to-date accumulated flared lp gas volume that is measured in
FLARED LP GAS VOLUME - SM3
standard cubic metre.
FUEL GAS
A gas volume that is the volume of gas used for fuel.
VOLUME
A fuel gas volume that is the daily (24 hour) volume of gas consumed
DAILY FUEL GAS CONSUMPTION VOLUME
for fuel at a given date.
DAILY FUEL GAS CONSUMPTION
A daily fuel gas consumption volume that is measured in thousand
VOLUME - MSCF
standard cubic feet.
DAILY FUEL GAS CONSUMPTION
A daily fuel gas consumption volume that is measured in standard
VOLUME - SM3
cubic metre.
MONTH TO-DATE ACCUMULATED GAS
A fuel gas volume that is the accumulated volume of gas consumed
CONSUMPTION VOLUME
for fuel to-date in reporting month.
MONTH TO-DATE ACCUMULATED GAS A month to-date accumulated gas consumption volume that is
CONSUMPTION VOLUME - MSCF
measured in thousand standard cubic feet.
MONTH TO-DATE ACCUMULATED GAS A month to-date accumulated gas consumption volume that is
CONSUMPTION VOLUME - SM3
measured in standard cubic metre.
MONTH TO-DATE AVERAGE FUEL GAS
A fuel gas volume that is the average volume of gas consumed for
CONSUMPTION VOLUME
fuel per day to-date in reporting month.
MONTH TO-DATE AVERAGE FUEL GAS A month to-date average fuel gas consumption volume that is
CONSUMPTION VOLUME - MSCF
measured in thousand standard cubic feet.
A-4
Appendix 1 - Terminology
Term
Definiton
MONTH TO-DATE AVERAGE FUEL GAS
CONSUMPTION VOLUME - SM3
YEAR TO-DATE ACCUMULATED FUEL GAS
CONSUMPTION VOLUME
YEAR TO-DATE ACCUMULATED FUEL
GAS CONSUMPTION VOL - MSCF
YEAR TO-DATE ACCUMULATED FUEL
GAS CONSUMPTION VOLUME - SM3
GAS EXPORT
VOLUME
DAILY GAS EXPORT VOLUME
DAILY GAS EXPORT VOLUME - MSCF
DAILY GAS EXPORT VOLUME - SM3
DAILY GAS EXPORT VOLUME AT 06:00
DAILY GAS EXPORT VOLUME AT 06:00
- SM3
DAILY GAS EXPORT VOLUME TO STOCK
TANK
DAILY GAS PRODUCTION VOLUME TO
STOCK TANK - SM3
DAILY GAS IN OIL EXPORT VOLUME
DAILY GAS IN OIL EXPORT VOLUME SM3
GAS REQUESTED DELIVERED TO
TERMINAL YESTERDAY
MONTH TO-DATE ACCUMULATED GAS
EXPORT VOLUME
MONTH TO-DATE ACCUMULATED GAS
EXPORT VOLUME - MSCF
MONTH TO-DATE ACCUMULATED GAS
EXPORT VOLUME - SM3
MONTH TO-DATE AVERAGE GAS EXPORT
VOLUME
MONTH TO-DATE AVERAGE GAS
EXPORT VOLUME - MSCF
MONTH TO-DATE AVERAGE GAS
EXPORT VOLUME - SM3
NOMINATED DAILY GAS EXPORT VOLUME
NOMINATED DAILY GAS EXPORT
VOLUME - SM3
SHORTFALL OF GAS TO TERMINAL
YESTERDAY
TOTAL GAS EXPORT VOLUME FROM ALL
PETROLEUM INSTALLATIONS
TOTAL GAS EXPORT VOLUME FROM
ALL PETROLEUM INSTALLATIONS SM3
VOLUME OF GAS DELIVERED TO TERMINAL
YESTERDAY
VOLUME OF GAS DELIVERED TO
TERMINAL YESTERDAY - SM3
YEAR TO-DATE ACCUMULATED GAS
EXPORT VOLUME
YEAR TO-DATE ACCUMULATED GAS
EXPORT VOLUME - MSCF
YEAR TO-DATE ACCUMULATED GAS
EXPORT VOLUME - SM3
GAS EXPORT
VOLUME
GAS INJECTION VOLUME
MONTH TO-DATE ACCUMULATED GAS
INJECTION VOLUME
MONTH TO-DATE ACCUMULATED GAS
INJECTION VOLUME - SM3
MONTH TO-DATE AVERAGE GAS INJECTION
VOLUME
A month to-date average fuel gas consumption volume that is
measured in standard cubic metre.
A fuel gas volume that is the accumulated volume of gas consumed
for fuel to-date in reporting year.
A year to-date accumulated fuel gas consumption volume that is
measured in thousand standard cubic feet.
A year to-date accumulated fuel gas consumption volume that is
measured in standard cubic metre.
A gas volume that is the volume of natural gas that is exported from
an installation.
A gas export volume that is the daily (24 hour) gas export volume at a
given date.
A daily gas export volume that is measured in thousand standard
cubic feet.
A daily gas export volume that is measured in standard cubic metre.
A gas export volume that is the daily (24 hour) gas export volume
measured at 06:00 a given date.
A daily gas export volume at 06:00 that is measured in standard cubic
metre.
A gas export volume that is the daily (24 hour) export volume of gas
delivered from installation to the stock tank at a given date.
A daily gas export volume to stock tank that is measured in standard
cubic metre.
A gas export volume that is the daily (24 hour) gas export volume
through a 2 phase pipeline (gas in oil) at a given date.
A daily gas in oil export volume that is measured in standard cubic
metre.
A gas export volume that is the volume requested to be delivered to
terminal the day before the reporting date.
A gas export volume that is the accumulated export volume of gas todate in reporting month.
A month to-date accumulated gas export volume that is measured in
thousand standard cubic feet.
A month to-date accumulated gas export volume that is measured in
standard cubic metre.
A gas export volume that is the average export volume of gas per day
to-date in reporting month.
A month to-date average gas export volume that is measured in
thousand standard cubic feet.
A month to-date average gas export volume that is measured in
standard cubic metre.
A gas export volume that is the planned gas export volume for the
next 24 hours.
A nominated daily gas export volume that is measured in standard
cubic metre.
A gas export volume that is the difference between gas requested
deliverd to terminal yesterday and volume of gas delivered to terminal
yesterday.
A gas export volume that is the total gas export volume from all
petroleum installations comprised by the report.
A total gas export volume from all petroleum installations that is
measured in standard cubic metre.
A gas export volume that is the total volume of gas delivered to the
terminal from the field the day before the reporting date.
A volume of gas delivered to terminal yesterday that is measured in
standard cubic metre.
A gas export volume that is the accumulated export volume of gas todate in reporting year.
A year to-date accumulated gas export volume that is measured in
thousand standard cubic feet.
A year to-date accumulated gas export volume that is measured in
standard cubic metre.
A gas volume that is the volume of natural gas that is exported from
an installation.
An injection volume that is the volume occupied by injected gas.
A gas injection volume that is the accumulated injection volume of gas
to-date in reporting month.
A month to-date accumulated gas injection volume that is measured
in standard cubic metre.
A gas injection volume that is the average injection volume of gas per
day to-date in reporting month.
A-5
Appendix 1 - Terminology
Term
Definiton
MONTH TO-DATE AVERAGE GAS
INJECTION VOLUME - SM3
YEAR TO-DATE ACCUMULATED GAS
INJECTION VOLUME
YEAR TO-DATE ACCUMULATED GAS
INJECTION VOLUME - SM3
GAS LIFT
VOLUME
A month to-date average gas injection volume that is measured in
standard cubic metre.
A gas injection volume that is the accumulated injection volume of gas
to-date in reporting year.
A year to-date accumulated gas injection volume that is measured in
standard cubic metre.
A volume of gas use for gas lifting.
DAILY TOTAL GAS LIFT VOLUME
I-BUTHANE GAS VOLUME
DAILY I-BUTHANE EXPORT VOLUME
DAILY I-BUTHANE EXPORT VOLUME SM3
IMPORTED GAS VOLUME
DAILY GAS IMPORT VOLUME
DAILY GAS IMPORT VOLUME - MSCF
DAILY GAS IMPORT VOLUME - SM3
MONTH TO-DATE ACCUMULATED GAS
IMPORT VOLUME
MONTH TO-DATE ACCUMULATED GAS
IMPORT VOLUME - MSCF
MONTH TO-DATE ACCUMULATED GAS
IMPORT VOLUME - SM3
MONTH TO-DATE AVERAGE GAS IMPORT
VOLUME
MONTH TO-DATE AVERAGE GAS
IMPORT VOLUME - MSCF
MONTH TO-DATE AVERAGE GAS
IMPORT VOLUME - SM3
YEAR TO-DATE ACCUMULATED GAS
IMPORT VOLUME
YEAR TO-DATE ACCUMULATED GAS
IMPORT VOLUME - MSCF
YEAR TO-DATE ACCUMULATED GAS
IMPORT VOLUME - SM3
N-BUTHANE GAS VOLUME
DAILY N-BUTHANE GAS EXPORT VOLUME
DAILY N-BUTHANE GAS EXPORT
VOLUME - SM3
PRODUCED GAS VOLUME
DAILY GAS PRODUCTION VOLUME
DAILY GAS PRODUCTION VOLUME MSCF
DAILY GAS PRODUCTION VOLUME SM3
DAILY GAS PRODUCTION VOLUME
FROM WELL
DAILY NATURAL GAS
PRODUCTION VOLUME FROM
WELL - SM3
A gas lift volume that is the total volume of gas injeted for gas lift per
day (24 hours).
A gas volume that is the volume of i-buthane gas.
An i-buthane gas volume that is the daily (24 hour) volume of ibuthane gas exported from a petroleum installation at a given date.
A daily i-buthane export volume that is measured in standard cubic
metre.
A gas volume that is the volume of gas imported from another
installation or field.
An imported gas volume that is the daily total volume of gas imported
to the installation at a given date.
A daily gas import volume that is measured in thousand standard
cubic feet.
A daily gas import volume that is measured in SM3.
An imported gas volume that is the month to-date accumulated
volume of gas imported to the installation in reporting month.
A month to-date accumulated gas import volume that is measured in
thousand standard cubic feet.
A month to-date accumulated gas import volume that is measured in
SM3.
An imported gas volume that is the average month to-date import
volume of gas to the installation in reporting month.
A month to-date average gas import volume that is measured in
thousand standard cubic feet.
A month to-date average gas import volume that is measured in SM3.
A imported gas volume that is the year to-date accumulated gas
import volume to the installation to-date in reporting year.
A year to-date accumulated gas import volume that is measured in
thousand standard cubic feet.
A year to-date accumulated gas import volume that is measured in
SM3.
A gas volume that is the volume of n-buthane gas.
A n-buthane gas volume that is the daily (24 hour) volume of nbuthane gas exported from a petroleum installation at a given date.
A daily n-buthane gas export volume that is measured in standard
cubic metre.
A gas volume which is the volume of gas produced.
A produced gas volume that is the daily (24 hour) gas production
volume at a given date.
A daily gas production volume that is measured in thousand standard
cubic foot.
A daily gas production volume that is measured in standard cubic
metre.
A daily gas production volume that is the daily (24 hour) calculated or
measured natural gas production volume from a specific well at a
given date.
A daily natural gas production volume from well that is measured in
standard cubic metre.
A produced gas volume that is the daily (24 hour) rich gas production
volume at a given date.
DAILY RICH GAS PRODUCTION
A daily rich gas production volume that is measured in standard cubic
VOLUME - SM3
metre.
MONTH TO-DATE ACCUMULATED GAS
A produced gas volume that is the accumulated production volume of
PRODUCTION VOLUME
gas to-date in reporting month.
MONTH TO-DATE ACCUMULATED GAS A month to-date accumulated gas production volume that is
PRODUCTION VOLUME - MSCF
measured in thousand standard cubic foot.
MONTH TO-DATE ACCUMULATED GAS A month to-date accumulated gas production volume that is
PRODUCTION VOLUME - SM3
measured in standard cubic metre.
MONTH TO-DATE ACCUMULATED RICH GAS A produced gas volume that is the accumulated production volume of
PRODUCTION VOLUME
rich gas to-date in reporting month.
DAILY RICH GAS PRODUCTION VOLUME
A-6
Appendix 1 - Terminology
Term
Definiton
MONTH TO-DATE ACCUMULATED
RICH GAS PRODUCTION VOLUME SM3
MONTH TO-DATE AVERAGE GAS
PRODUCTION VOLUME
MONTH TO-DATE AVERAGE GAS
PRODUCTION VOLUME - MSCF
MONTH TO-DATE AVERAGE GAS
PRODUCTION VOLUME - SM3
MONTH TO-DATE AVERAGE RICH GAS
PRODUCTION VOLUME
MONTH TO-DATE AVERAGE RICH GAS
PRODUCTION VOLUME - SM3
YEAR TO-DATE ACCUMULATED GAS
PRODUCTION VOLUME
YEAR TO-DATE ACCUMULATED GAS
PRODUCTION VOLUME - MSCF
YEAR TO-DATE ACCUMULATED GAS
PRODUCTION VOLUME - SM3
YEAR TO-DATE ACCUMULATED RICH GAS
PRODUCTION VOLUME
YEAR TO-DATE ACCUMULATED RICH
GAS PRODUCTION VOLUME - SM3
PROPANE GAS VOLUME
A month to-date accumulated rich gas production volume that is
measured in standard cubic metre.
A produced gas volume that is the average production volume of gas
per day to-date in reporting month.
A month to-date average gas production volume that is measured in
thousand standard cubic foot.
A month to-date average gas production volume that is measured in
standard cubic metre.
A produced gas volume that is the average production volume of rich
gas per day to-date in reporting month.
A month to-date average rich gas production volume that is measured
in standard cubic metre.
A produced gas volume that is the accumulated production volume of
gas to-date in reporting year.
A year to-date accumulated gas production volume that is measured
in thousand standard cubic foot.
A year to-date accumulated gas production volume that is measured
in standard cubic metre.
A produced gas volume that is the accumulated production volume of
rich gas to-date in reporting year.
A year to-date accumulated rich gas production volume that is
measured in standard cubic metre.
A gas volume that is the volume of propane gas.
A propane gas volume that is the daily (24 hour) volume of propane
DAILY PROPANE GAS EXPORT VOLUME
gas exported from a petroleum installation at a given date.
DAILY PROPANE GAS EXPORT
A daily propane gas export volume that is measured in standard cubic
VOLUME - SM3
metre.
A gas volume that is the total volume of all gas components exported
TOTAL GAS COMPONENT VOLUME
from an installation.
DAILY TOTAL GAS COMPONENT EXPORT
A total gas component volume that is the daily (24 hour) total gas
VOLUME
component export volume at a given date.
DAILY TOTAL GAS COMPONENT
A daily total gas component export volume that is measured in
EXPORT VOLUME - SM3
standard cubic metre.
A gas lift volume that is the total volume of gas injeted for gas lift per
DAILY TOTAL GAS LIFT VOLUME
day (24 hours).
DAILY TOTAL GAS LIFT VOLUME A daily total gas lift volume that is measured in thousand std cubic
MSCF
foot.
DAILY TOTAL GAS LIFT VOLUME - SM3 A daily total gas lift volume that is measured in standard cubic metre.
DAILY TOTAL GAS LIFT
A daily total gas lift volume to well that is measured in standard cubic
VOLUME TO WELL - SM3
metre.
DAILY TOTAL GAS LIFT
A daily total gas lift volume to well that is measured in thousand
VOLUME TO WELL - MSCF
standard cubic feet.
VENTED GAS
A gas volume that is the volume of gas that has been vented off.
VOLUME
A vented gas volume that is the daily (24 hour) volume of gas vented
DAILY VENTED GAS VOLUME
off at a given date.
DAILY VENTED GAS VOLUME - SM3
A daily vented gas volume that is measured in standard cubic metre.
MONTH TO-DATE ACCUMULATED VENTED
A vented gas volume that is the accumulated volume of gas vented
GAS VOLUME
off to-date in reporting month.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated vented gas volume that is measured in
VENTED GAS VOLUME - SM3
standard cubic metre.
MONTH TO-DATE AVERAGE VENTED GAS
A vented gas volume that is the average volume of gas vented off per
VOLUME
day to-date in reporting month.
MONTH TO-DATE AVERAGE VENTED
A month to-date average vented gas volume that is measured in
GAS VOLUME - SM3
standard cubic metre.
YEAR TO-DATE ACCUMULATED VENTED
A vented gas volume that is the accumulated volume gas vented off
GAS VOLUME
to-date in reporting year.
YEAR TO-DATE ACCUMULATED
A year to-date accumulated vented gas volume that is measured in
VENTED GAS VOLUME - SM3
standard cubic metre.
Liquid volume terms
Term
LIQUID VOLUME
CUTTINGS
VOLUME
Definition
A volume which contains a liquid.
A liquid volume that is a volume of drilling fluid (mud) containing
drill cuttings.
A-7
Appendix 1 - Terminology
Term
Definition
CUTTINGS INJECTION VOLUME
DAILY CUTTINGS INJECTION VOLUME
DAILY CUTTINGS INJECTION VOLUME
DAILY CUTTINGS INJECTION
VOLUME - SM3
EXPORTED LIQUID VOLUME
DAILY LIQUID EXPORT VOLUME INCLUDING
WATER
DAILY LIQUID EXPORT VOLUME
INCLUDING WATER - BBLS
DAILY LIQUID EXPORT VOLUME
INCLUDING WATER - SM3
MONTH TO-DATE ACCUMULATED LIQUID
EXPORT VOLUME INCLUDING WATER
MONTH TO-DATE ACCUMULATED LIQUID
EXPORT VOLUME INCL WATER - SM3
MONTH TO-DATE ACCUMULATED LIQUID
EXPORT VOLUME INCLUDING WATER BBLS
MONTH TO-DATE AVERAGE LIQUID EXPORT
VOLUME INCLUDING WATER
MONTH TO-DATE AVERAGE LIQUID
EXPORT VOL INCLUDING WATER - SM3
MONTH TO-DATE AVERAGE LIQUID
EXPORT VOLUME INCLUDING WATER BBLS
YEAR TO-DATE ACCUMULATED LIQUID
EXPORT VOLUME INCLUDING WATER
YEAR TO-DATE ACCUMULATED LIQUID
EXPORT VOL INCL WATER - SM3
YEAR TO-DATE ACCUMULATED LIQUID
EXPORT VOLUME INCLUDING WATER BBLS
A cuttings volume that is the volume of cuttings (drilling fluid w. drill
cuttings) injected into a well from an installation.
A cuttings injection volume that is the daily (24 hour) volume of
cuttings injected into a well at a given date.
A cuttings injection volume that is the daily (24 hour) volume of
cuttings injected into a well at a given date.
A daily cuttings injection volume that is measured in standard
cubic metre.
A liquid volume that is the volume of liquid exported from an
installation.
An exported liquid volume that is the daily (24 hour) liquid export
volume including water at a given date.
A daily liquid export volume including water that is measured in US
barrels.
A daily liquid export volume including water that is measured in
standard cubic metre.
An exported liquid volume that is the accumulated export volume
of liquid including water to-date in reporting month.
A month to-date accumulated liquid export volume including water
that is measured in standard cubic metre.
A month to-date accumulated liquid export volume including water
that is measured in US barrels.
An exported liquid volume that is the average export volume of
liquid including water per day to-date in reporting month.
A month to-date average liquid export volume including water that
is measured in standard cubic metre.
A month to-date average liquid export volume including water that
is measured in US barrels.
An exported liquid volume that is the accumulated measured
export volume of liquid including water to-date in reporting year.
A year to-date accumulated liquid export volume including water
that is measured in standard cubic metre.
A year to-date accumulated liquid export volume including water
that is measured in US barrels.
A liquid volume that is a volume of hydrocarbon condensate (light
hydrocarbon fractions produced with natural gas or natural
occurring in an oil resevoir).
A hc-condensate volume that is the daily (24 hour) hc-condensate
export volume at a given date.
A daily hc-condensate export volume that is measured in standard
cubic metre.
A hc-condensate volume that is the daily (24 hour) hc-condensate
volume delivered from installation to the stock tank at a given date.
A daily hc-condensate export volume to stock tank that is
measured in standard cubic metre.
A hc-condensate volume that is the accumulated export volume of
hc-condensate to-date in reporting month.
A month to-date accumulated hc-condensate export volume that is
measured in standard cubic metre.
A hc-condensate volume that is the average export volume of hccondensate per day to-date in reporting month.
A month to-date average hc-condensate export volume that is
measured in standard cubic metre.
A hc-condensate volume that is the accumulated export volume of
hc-condensate to-date in reporting year.
A year to-date accumulated hc-condensate export volume that is
measured in standard cubic metre.
A liquid volume that is a volume of liquid (including water) that is
imported to an installation.
A liquid import volume (including water) that is the liquid import
volume the last 24 hours at a given date.
A daily liquid import volume that is measured in US barrels.
HC-CONDENSATE VOLUME
DAILY HC-CONDENSATE EXPORT VOLUME
DAILY HC-CONDENSATE EXPORT
VOLUME - SM3
DAILY HC-CONDENSATE EXPORT VOLUME
TO STOCK TANK
DAILY HC-CONDENSATE PRODUCTION
VOLUME TO STOCK TANK - SM3
MONTH TO-DATE ACCUMULATED HCCONDENSATE EXPORT VOLUME
MONTH TO-DATE ACCUMULATED HCCONDENSATE EXPORT VOLUME - SM3
MONTH TO-DATE AVERAGE HCCONDENSATE EXPORT VOLUME
MONTH TO-DATE AVERAGE HCCONDENSATE EXPORT VOLUME - SM3
YEAR TO-DATE ACCUMULATED HCCONDENSATE EXPORT VOLUME
YEAR TO-DATE ACCUMULATED HCCONDENSATE EXPORT VOLUME - SM3
LIQUID IMPORT VOLUME
DAILY LIQUID IMPORT VOLUME
DAILY LIQUID IMPORT VOLUME - BBLS
DAILY LIQUID IMPORT VOLUME - SM3
MONTH TO-DATE ACCUMULATED LIQUID
IMPORT VOLUME
MONTH TO-DATE ACCUMULATED LIQUID
IMPORT VOLUME - BBLS
MONTH TO-DATE ACCUMULATED LIQUID
IMPORT VOLUME - SM3
A daily liquid import volume that is measured in SM3.
A liquid import volume that is the accumulated import volume of
liquid (including water) to-date in reporting month.
A month to-date accumulated liquid import volume that is
measured in US barrels.
A month to-date accumulated liquid import volume that is
measured in SM3.
A-8
Appendix 1 - Terminology
Term
Definition
MONTH TO-DATE AVERAGE LIQUID IMPORT
VOLUME
MONTH TO-DATE AVERAGE LIQUID
IMPORT VOLUME - BBLS
MONTH TO-DATE AVERAGE LIQUID
IMPORT VOLUME - SM3
YEAR TO-DATE ACCUMULATED LIQUID
IMPORT VOLUME
YEAR TO-DATE ACCUMULATED LIQUID
IMPORT VOLUME - BBLS
YEAR TO-DATE ACCUMULATED LIQUID
IMPORT VOLUME - SM3
LIQUID PRODUCTION VOLUME
DAILY LIQUID PRODUCTION VOLUME
INCLUDING WATER
DAILY LIQUID PRODUCTION VOLUME
INCLUDING WATER - BBLS
DAILY LIQUID PRODUCTION VOLUME
INCLUDING WATER - SM3
MONTH TO-DATE ACCUMULATED LIQUID
PRODUCTION VOLUME INCLUDING WATER
MONTH TO-DATE ACCUMULATED LIQ
PRODUCTION VOL INCL WATER - SM3
MONTH TO-DATE ACCUMULATED LIQUID
PRODUCTION VOLUME INCLUDING
WATER - BBLS
MONTH TO-DATE AVERAGE LIQUID
PRODUCTION VOLUME INCLUDING WATER
MONTH TO-DATE AVERAGE LIQ
PRODUCTION VOL INCLUDING WATER SM3
MONTH TO-DATE AVERAGE LIQUID
PRODUCTION VOLUME INCLUDING
WATER - BBLS
YEAR TO-DATE ACCUMULATED LIQUID
PRODUCTION VOLUME INCLUDING WATER
YEAR TO-DATE ACCUMULATED LIQ
PRODUCTION VOL INCL WATER - SM3
YEAR TO-DATE ACCUMULATED LIQUID
PRODUCTION VOLUME INCLUDING
WATER - BBLS
LIQUID VOLUME - LITRE
NATURAL GAS LIQUID VOLUME
DAILY NATURAL GAS LIQUID IMPORT
VOLUME
DAILY NATURAL GAS LIQUID IMPORT
VOLUME - BBLS
DAILY NATURAL GAS LIQUID IMPORT
VOLUME - SM3
A liquid import volume that is the average import volume of liquid
(including water) per day to-date in reporting month.
A month to-date average liquid import volume that is measured in
US barrels.
A month to-date average liquid import volume that is measured in
SM3.
A liquid import volume that is the accumulated import volume of
liquid (including water) to-date in reporting year.
A year to-date accumulated liquid import volume that is measured
in US barrels.
A year to-date accumulated liquid import volume that is measured
in SM3.
A liquid volume that is the produced volume of liquid including
water on the installation.
A liquid production volume that is the liquid volume including water
produced the last 24 hours at a given date.
A daily liquid production volume including water that is measured
in US barrels.
A daily liquid production volume including water that is measured
in standard cubic metre.
A liquid production volume that is the accumulated produced
volume of liquid including water to-date in reporting month.
A month to-date accumulated liquid production volume including
water that is measured in standard cubic metre.
A month to-date accumulated liquid production volume including
water that is measured in US barrels.
A liquid production volume that is the average volume of liquid
including water produced per day to-date in reporting month.
A month to-date average liquid production volume including water
that is measured in standard cubic metre.
A month to-date average liquid production volume including water
that is measured in US barrels.
A liquid production volume that is the accumulated volume of liquid
including water produced to-date in reporting year.
A year to-date accumulated liquid production volume including
water that is measured in standard cubic metre.
A year to-date accumulated liquid production volume including
water that is measured in US barrels.
A liquid volume that is measured in litre.
A liquid volume that is the volume of natural gas liquid (NGL).
A natural gas liquid volume that is the daily (24 hour) natural gas
liquid import volume at a given date.
A daily natural gas liquid import volume that is measured in US
barrels.
A daily natural gas liquid import volume that is measured in SM3.
DAILY NATURAL GAS LIQUID PRODUCTION
VOLUME
DAILY NATURAL GAS LIQUID
PRODUCTION VOLUME - BBLS
DAILY NATURAL GAS LIQUID
PRODUCTION VOLUME - SM3
MONTH TO-DATE ACCUMULATED NATURAL
GAS LIQUID IMPORTED VOLUME
MONTH TO-DATE ACCUMULATED
NATURAL GAS LIQ IMPORTED VOLUME SM3
MONTH TO-DATE ACCUMULATED
NATURAL GAS LIQUID IMPORTED
VOLUME - BBLS
MONTH TO-DATE ACCUMULATED NATURAL
GAS LIQUID PRODUCTION VOLUME
MONTH TO-DATE ACCUMULATED
NATURAL GAS LIQ PRODUCTION VOL SM3
MONTH TO-DATE ACCUMULATED
NATURAL GAS LIQUID PRODUCTION
VOLUME - BBLS
A natural gas liquid volume that is the daily (24 hour) natural gas
liquid production volume on a petroleum installation at a given
date.
A daily natural gas liquid production volume that is measured in
US barrels.
A daily natural gas liquid production volume, measured in standard
cubic metre.
A natural gas liquid volume that is the accumulated imported
volume of natural gas liquid to-date in reporting month.
A month to-date accumulated natural gas liquid imported volume
that is measured in SM3.
A month to-date accumulated natural gas liquid imported volume
that is measured in US barrels.
A natural gas liquid volume that is the accumulated production
volume of natural gas liquid to-date in reporting month.
A month to-date accumulated natural gas liquid production volume
that is measured in standard cubic metre.
A month to-date accumulated natural gas liquid production volume
that is measured in US barrels.
A-9
Appendix 1 - Terminology
Term
Definition
MONTH TO-DATE AVERAGE NATURAL GAS
LIQUID IMPORTED VOLUME
MONTH TO-DATE AVERAGE NATURAL
GAS LIQUID IMPORTED VOLUME - BBLS
MONTH TO-DATE AVERAGE NATURAL
GAS LIQUID IMPORTED VOLUME - SM3
MONTH TO-DATE AVERAGE NATURAL GAS
LIQUID PRODUCTION VOLUME
MONTH TO-DATE AVERAGE NATURAL
GAS LIQUID PRODUCTION VOL - SM3
MONTH TO-DATE AVERAGE NATURAL
GAS LIQUID PRODUCTION VOLUME BBLS
YEAR TO-DATE ACCUMULATED NATURAL
GAS LIQUID IMPORT VOLUME
YEAR TO-DATE ACCUMULATED
NATURAL GAS LIQUID IMPORT VOLUME BBLS
YEAR TO-DATE ACCUMULATED
NATURAL GAS LIQUID IMPORT VOLUME SM3
YEAR TO-DATE ACCUMULATED NATURAL
GAS LIQUID PRODUCTION VOLUME
YEAR TO-DATE ACCUMULATED
NATURAL GAS LIQ PRODUCTION VOL SM3
YEAR TO-DATE ACCUMULATED
NATURAL GAS LIQUID PRODUCTION
VOLUME - BBLS
OIL VOLUME
CRUDE OIL VOLUME
DAILY CRUDE OIL EXPORT VOLUME
DAILY CRUDE OIL EXPORT VOLUME
DAILY CRUDE OIL EXPORT
VOLUME - SM3
DIESEL OIL VOLUME
DIESEL OIL IMPORT VOLUME
DIESEL OIL IMPORT VOLUME
DAILY DIESEL OIL IMPORT
VOLUME
DAILY DIESEL OIL IMPORT
VOLUME - M3
MONTH TO-DATE ACCUMULATED
DIESEL OIL IMPORT VOLUME
MONTH TO-DATE ACCUMULATED
DIESEL OIL IMPORT VOLUME
MONTH TO-DATE
ACCUMULATED DIESEL
OIL IMPORT VOLUME - M3
A natural gas liquid volume that is the average import volume of
natural gas liquid per day to-date in reporting month.
A month to-date average natural gas liquid imported volume that is
measured in US barrels.
A month to-date average natural gas liquid imported volume that is
measured in SM3.
A natural gas liquid volume that is the average production volume
of natural gas liquid per day to-date in reporting month.
A month to-date average natural gas liquid production volume that
is measured in standard cubic metre.
A month to-date average natural gas liquid production volume that
is measured in US barrels.
A natural gas liquid volume that is the accumulated import volume
of natural gas liquid to-date in reporting year.
A year to-date accumulated natural gas liquid import volume that is
measured in US barrels.
A year to-date accumulated natural gas liquid import volume that is
measured in SM3.
A natural gas liquid volume that is the accumulated production
volume of natural gas liquid to-date in reporting year.
A year to-date accumulated natural gas liquid production volume
that is measured in standard cubic metre.
A year to-date accumulated natural gas liquid production volume
that is measured in US barrels.
A liquid volume which is a volume of oil.
An oil volume that is the volume of crude oil.
A crude oil volume that is the daily (24 hour) volume of crude oil
exported from an installation at a given date.
A crude oil volume that is the daily (24 hour) volume of crude oil
exported from an installation at a given date.
A daily crude oil export volume that is measured in standard cubic
metre.
An oil volume that is the volume of diesel oil.
A diesel oil volume that is the imported volume of diesel oil on an
installation.
A diesel oil volume that is the imported volume of diesel oil on an
installation.
A diesel oil import volume that is the volume of diesel oil impored
to the installation the last 24 hours at a given date.
A daily diesel oil import volume that is measured in cubic metre at
prevailing t&p.
A diesel oil import volume that is the accumulated volume of diesel
oil imported to the installation to-date in reporting month.
A month to-date accumulated diesel oil import volume that is
measured in cubic metre at prevailing t&p.
A diesel oil import volume that is the accumulated volume of diesel
oil imported to the installation to-date in reporting month.
A diesel oil import volume that is the average import volume of
diesel oil imported to the installation per day to-date in reporting
month.
MONTH TO-DATE AVERAGE
DIESEL OIL IMPORT VOLUME
MONTH TO-DATE
AVERAGE DIESEL OIL
IMPORT VOLUME - M3
A month to-date average diesel oil import volume that is measured
in cubic metre at prevailing t&p.
MONTH TO-DATE AVERAGE
DIESEL OIL IMPORT VOLUME
YEAR TO-DATE ACCUMULATED
DIESEL OIL IMPORT VOLUME
YEAR TO-DATE
ACCUMULATED DIESEL
OIL IMPORT VOLUME - SM3
YEAR TO-DATE ACCUMULATED
DIESEL OIL IMPORT VOLUME
ESTIMATED LOSS OF OIL DELIVERIES
A diesel oil import volume that is the average import volume of
diesel oil imported to the installation per day to-date in reporting
month.
A diesel oil import volume that is the accumulated import volume
of diesel oil to the installation to-date in reporting year.
A year to-date accumulated net oil production volume, measured
in standard cubic metre.
A diesel oil import volume that is the accumulated import volume
of diesel oil to the installation to-date in reporting year.
An oil volume that is the estimated volume of lost oil deliveries.
A-10
Appendix 1 - Terminology
Term
Definition
An oil volume that is the total volume of all petroleum liquids and
sediments and water, excluding free water, corrected by the
appropriate volume correction factor (Ci1) for the observed
temperature and API gravity, relative density, or density to a
standard temperature such as 60 deg. F or 15 deg. C and also
corrected by the applicable pressure correction factor (Cp1) and
meter factor.
A gross standard oil volume that is the gross oil production volume
the last 24 hours at a given date.
A gross standard oil volume that is the gross oil production volume
the last 24 hours at a given date.
GROSS STANDARD OIL VOLUME
DAILY GROSS OIL PRODUCTION
VOLUME
DAILY GROSS OIL PRODUCTION
VOLUME
DAILY GROSS OIL PRODUCTION
VOLUME - BBLS
DAILY GROSS OIL PRODUCTION
VOLUME - SM3
GROSS OIL LOADED TO SHIP ON
PRODUCTION DAY
GROSS OIL VOLUME LOADED TO SHIP
A daily gross oil production volume, measured in US barrels.
A daily gross production volume, measured in standard cubic
metre.
A gross standard oil volume that is loaded to a ship from 00 to 24
on production day.
A gross standard oil volume that is loaded to a ship.
GROSS OIL VOLUME LOADED TO SHIP
GROSS OIL VOLUME LOADED TO
SHIP - SM3
MONTH TO-DATE ACCUMULATED GROSS
OIL PRODUCTION VOLUME
MONTH TO-DATE ACCUMULATED GROSS
OIL PRODUCTION VOLUME
MONTH TO-DATE ACCUMULATED
GROSS OIL PRODUCTION
VOLUME - BBLS
MONTH TO-DATE ACCUMULATED
GROSS OIL PRODUCTION
VOLUME - SM3
MONTH TO-DATE AVERAGE GROSS OIL
PRODUCTION VOLUME
MONTH TO-DATE AVERAGE GROSS OIL
PRODUCTION VOLUME
MONTH TO-DATE AVERAGE
GROSS OIL PRODUCTION
VOLUME - BBLS
MONTH TO-DATE AVERAGE
GROSS OIL PRODUCTION
VOLUME - SM3
YEAR TO-DATE ACCUMULATED GROSS
OIL PRODUCTION VOLUME
YEAR TO-DATE ACCUMULATED GROSS
OIL PRODUCTION VOLUME
YEAR TO-DATE ACCUMULATED
GROSS OIL PRODUCTION
VOLUME - BBLS
YEAR TO-DATE ACCUMULATED
GROSS OIL PRODUCTION
VOLUME - SM3
NET STANDARD OIL VOLUME
DAILY NET OIL EXPORT VOLUME
DAILY NET OIL EXPORT VOLUME
- SM3
DAILY NET OIL EXPORT VOLUME
DAILY NET OIL EXPORT VOLUME TO
STOCK TANK
DAILY NET OIL EXPORT VOLUME
TO STOCK TANK - SM3
DAILY NET OIL EXPORT VOLUME TO
STOCK TANK
A gross standard oil volume that is loaded to a ship.
A gross oil volume loaded to ship that is measured in standard
cubic metre.
A gross standard oil volume that is the accumulated production
volume of gross oil to-date in reporting month.
A gross standard oil volume that is the accumulated production
volume of gross oil to-date in reporting month.
A month to-date accumulated gross oil production volume,
measured in US barrels.
A month to-date accumulated gross oil production, measured in
standard cubic metre.
A gross standard oil volume that is the average production volume
of gross oil per day to-date in reporting month.
A gross standard oil volume that is the average production volume
of gross oil per day to-date in reporting month.
A month to-date average gross oil production volume, measured in
US barrels.
A month to-date average gross oil production volume, measured in
standard cubic metre.
A gross standard oil volume that is the accumulated production
volume of gross oil to-date in reporting year.
A gross standard oil volume that is the accumulated production
volume of gross oil to-date in reporting year.
A year to-date accumulated gross oil production volume,
measured in US barrels.
A year to-date accumulated gross oil production volume measured
in standard cubic metre.
An oil volume that is the total volume of all petroleum liquids
excluding sediments and water and free water, corrected by the
appropriate volume correction factor (Ci1) for the observed
temperature and API gravity, relative density, or density to a
standard temperature such as 60 deg F or 15 deg C and also
corrected by the applicabe pressure correction factor (Cp1) and
meter factor.
A net standard oil volume that is the daily (24 hour) net oil export
volume at a given date.
A daily net oil export volume that is measured in standard cubic
metre.
A net standard oil volume that is the daily (24 hour) net oil export
volume at a given date.
A net standard oil volume that is the daily (24 hour) net oil volume
delivered from a petroleum installation to the stock tank at a given
date.
A daily net oil export volume to stock tank that is measured in
standard cubic metre.
A net standard oil volume that is the daily (24 hour) net oil volume
delivered from a petroleum installation to the stock tank at a given
date.
A-11
Appendix 1 - Terminology
Term
DAILY NET OIL IMPORT VOLUME
Definition
A net standard oil volume that is the daily (24 hour) net oil import
volume at a given date.
DAILY NET OIL IMPORT VOLUME A daily net oil import volume that is measured in US barrels.
BBLS
DAILY NET OIL IMPORT VOLUME A daily net oil import volume that is measured in SM3.
SM3
A net standard oil volume that is the daily (24 hour) net oil import
DAILY NET OIL IMPORT VOLUME
volume at a given date.
A net standard oil volume that is the net oil production volume the
DAILY NET OIL PRODUCTION VOLUME
last 24 hours at a given date.
A net standard oil volume that is the net oil production volume the
DAILY NET OIL PRODUCTION VOLUME
last 24 hours at a given date.
DAILY NET OIL PRODUCTION
A daily net oil production volume that is measured in US barrels.
VOLUME - BBLS
DAILY NET OIL PRODUCTION
A daily net oil production volume that is measured in standard
VOLUME - SM3
cubic metre.
A daily net oil production volume that is the daily (24 hour)
DAILY NET OIL PRODUCTION
calculated or measured net oil volume produced from a specific
VOLUME FROM WELL
well at a given date.
A daily net oil production volume that is the daily (24 hour)
DAILY NET OIL PRODUCTION
calculated or measured net oil volume produced from a specific
VOLUME FROM WELL
well at a given date.
DAILY NET OIL PRODUCTION
A daily net oil production volume from well that is measured in
VOLUME FROM WELL
standard cubic metre.
DAILY NET OIL VOLUME LOADED TO
A net standard oil volume that is loaded to a ship from 00 to 24 on
SHIP
production day.
DAILY NET OIL VOLUME LOADED TO
A net standard oil volume that is loaded to a ship from 00 to 24 on
SHIP
production day.
DAILY NET OIL VOLUME LOADED A daily net oil volume loaded to ship that is measured in standard
TO SHIP - SM3
cubic metre.
MONTH TO-DATE ACCUMULATED NET
A net standard oil volume that is the accumulated export volume of
OIL EXPORT VOLUME
net oil to-date in reporting month.
MONTH TO-DATE ACCUMULATED NET
A net standard oil volume that is the accumulated export volume of
OIL EXPORT VOLUME
net oil to-date in reporting month.
MONTH TO-DATE ACCUMULATED A month to-date accumulated net oil export volume that is
NET OIL EXPORT VOLUME - SM3
measured in standard cubic metre.
MONTH TO-DATE ACCUMULATED NET
A net standard oil volume that is the accumulated import volume of
OIL IMPORT VOLUME
net oil to-date in reporting month.
MONTH TO-DATE ACCUMULATED NET
A net standard oil volume that is the accumulated import volume of
OIL IMPORT VOLUME
net oil to-date in reporting month.
MONTH TO-DATE ACCUMULATED A month to-date accumulated net oil import volume that is
NET OIL IMPORT VOLUME - BBLS measured in US barrels.
MONTH TO-DATE ACCUMULATED A month to-date accumulated net oil import volume that is
NET OIL IMPORT VOLUME - SM3
measured in SM3.
MONTH TO-DATE ACCUMULATED NET
A net standard oil volume that is the accumulated production
OIL PRODUCTION VOLUME
volume of net oil to-date in reporting month.
A net standard oil volume that is the accumulated production
MONTH TO-DATE ACCUMULATED NET
OIL PRODUCTION VOLUME
volume of net oil to-date in reporting month.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated net oil production volume that is
NET OIL PRODUCTION VOLUME measured in US barrels.
BBLS
MONTH TO-DATE ACCUMULATED
A month to-date accumulated net oil production volume that is
NET OIL PRODUCTION VOLUME measured in standard cubic metre.
SM3
MONTH TO-DATE AVERAGE NET OIL
A net standard oil volume that is the average export volume of net
EXPORT VOLUME
oil per day to-date in reporting month.
MONTH TO-DATE AVERAGE NET OIL
A net standard oil volume that is the average export volume of net
EXPORT VOLUME
oil per day to-date in reporting month.
MONTH TO-DATE AVERAGE NET
A month to-date average net oil export volume that is measured in
OIL EXPORT VOLUME - SM3
standard cubic metre.
MONTH TO-DATE AVERAGE NET OIL
A net standard oil volume that is the average import volume of net
IMPORT VOLUME
oil per day to-date in reporting month.
MONTH TO-DATE AVERAGE NET OIL
A net standard oil volume that is the average import volume of net
IMPORT VOLUME
oil per day to-date in reporting month.
MONTH TO-DATE AVERAGE NET
A month to-date average net oil import volume that is measured in
OIL IMPORT VOLUME - BBLS
US barrels.
MONTH TO-DATE AVERAGE NET
A month to-date average net oil import volume that is measured in
OIL IMPORT VOLUME - SM3
SM3.
MONTH TO-DATE AVERAGE NET OIL
A net standard oil volume that is the average production volume of
PRODUCTION VOLUME
net oil per day to-date in reporting month.
MONTH TO-DATE AVERAGE NET OIL
A net standard oil volume that is the average production volume of
PRODUCTION VOLUME
net oil per day to-date in reporting month.
A-12
Appendix 1 - Terminology
Term
Definition
MONTH TO-DATE AVERAGE NET
OIL PRODUCTION VOLUME BBLS
MONTH TO-DATE AVERAGE NET
OIL PRODUCTION VOLUME - SM3
MONTH TO-DATE NET OIL VOLUME
LOADED TO TANKER
MONTH TO-DATE NET OIL VOLUME
LOADED TO TANKER
MONTH TO-DATE NET OIL
VOLUME LOADED TO TANKER SM3
YEAR TO-DATE ACCUMULATED NET OIL
EXPORT VOLUME
YEAR TO-DATE ACCUMULATED NET OIL
EXPORT VOLUME
YEAR TO-DATE ACCUMULATED
NET OIL EXPORT VOLUME - SM3
YEAR TO-DATE ACCUMULATED NET OIL
IMPORT VOLUME
YEAR TO-DATE ACCUMULATED NET OIL
IMPORT VOLUME
YEAR TO-DATE ACCUMULATED
NET OIL IMPORT VOLUME - BBLS
YEAR TO-DATE ACCUMULATED
NET OIL IMPORT VOLUME - SM3
YEAR TO-DATE ACCUMULATED NET OIL
PRODUCTION VOLUME
YEAR TO-DATE ACCUMULATED
NET OIL PRODUCTION VOLUME BBLS
YEAR TO-DATE ACCUMULATED
NET OIL PRODUCTION VOLUME SM3
OIL VOLUME
PRODUCED HC-CONDENSATE VOLUME
DAILY HC-CONDENSATE PRODUCTION
VOLUME
DAILY HC-CONDENSATE PRODUCTION
VOLUME - SM3
MONTH TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION VOLUME
MONTH TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION VOLUME SM3
MONTH TO-DATE AVERAGE HCCONDENSATE PRODUCTION VOLUME
MONTH TO-DATE AVERAGE HCCONDENSATE PRODUCTION VOLUME SM3
YEAR TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION VOLUME
YEAR TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION VOLUME SM3
YEAR TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION VOLUME
WATER VOLUME
DAILY DISCHARGED WATER
OVERBOARD VOLUME
DAILY DISCHARGED WATER
OVERBOARD VOLUME - SM3
MONTH TO-DATE ACCUMULATED
DISCHARGED WATER OVERBOARD
VOLUME
A month to-date average net oil production volume that is
measured in standard cubic metre.
A net standard oil volume that is the accumulated volume of net oil
loaded to tanker.
A net standard oil volume that is the accumulated volume of net oil
loaded to tanker.
A month to-date net oil volume loaded to tanker that is measured
in standard cubic metre.
A net standard oil volume that is the accumulated export volume of
net oil to-date in reporting year.
A net standard oil volume that is the accumulated export volume of
net oil to-date in reporting year.
A year to-date accumulated net oil export volume that is measured
in standard cubic metre.
A net standard oil volume that is the accumulated import volume of
net oil to-date in reporting year.
A net standard oil volume that is the accumulated import volume of
net oil to-date in reporting year.
A year to-date accumulated net oil import volume that is measured
in US barrels.
A year to-date accumulated net oil import volume that is measured
in SM3.
A net standard oil volume that is the accumulated production
volume of net oil to-date in reporting year.
A year to-date accumulated net oil production volume that is
measured in US barrels.
A year to-date accumulated net oil production volume that is
measured in standard cubic metre.
A liquid volume which is a volume of oil.
A liquid volume which is the volume of hc-condensate produced
from a well.
A produced hc-condensate volume that is the daily (24 hour) hccondensate production volume at a given date.
A daily hc-condensate production volume that is measured in
standard cubic metre.
A produced hc-condensate volume that is the accumulated
production volume of hc-condensate to-date in reporting month.
A month to-date accumulated hc-condensate production volume
that is measured in standard cubic metre.
A produced hc-condensate volume that is the average production
volume of hc-condensate per day to-date in reporting month.
A month to-date average hc-condensate production volume that is
measured in standard cubic metre.
A produced hc-condensate volume that is the accumulated
production volume of hc-condensate to-date in reporting year.
A year to-date accumulated hc-condensate production volume that
is measured in standard cubic metre.
DISCHARGED WATER OVERBOARD VOLUME
DAILY DISCHARGED WATER
OVERBOARD VOLUME
A month to-date average net oil production volume that is
measured in US barrels.
A produced hc-condensate volume that is the accumulated
production volume of hc-condensate to-date in reporting year.
A liquid volume that is the volume of water.
A water volume that is the total volume of water that has ben
drained to sea.
A discharged water overboard volume that is the daily (24 hour)
volume of water that has been drained to sea from the installation
at a given date.
A discharged water overboard volume that is the daily (24 hour)
volume of water that has been drained to sea from the installation
at a given date.
A daily discharged water overboard volume that is measured in
standard cubic metre.
A discharged water overboard volume that is the accumulated
volume of water that has been drained to sea from the installation
to-date in reporting month.
A-13
Appendix 1 - Terminology
Term
Definition
MONTH TO-DATE ACCUMULATED
DISCHARGED WATER
OVERBOARD VOLUME - SM3
YEAR TO-DATE ACCUMULATED
DISCHARGED WATER OVERBOARD
VOLUME
YEAR TO-DATE ACCUMULATED
DISCHARGED WATER
OVERBOARD VOLUME - SM3
DRAINAGE WATER VOLUME
DAILY DRAINAGE WATER VOLUME
DAILY DRAINAGE WATER VOLUME
DAILY DRAINAGE WATER
VOLUME - M3
MONTH TO-DATE ACCUMULATED
DRAINAGE WATER VOLUME
MONTH TO-DATE ACCUMULATED
DRAINAGE WATER VOLUME
MONTH TO-DATE ACCUMULATED
DRAINAGE WATER VOLUME - M3
YEAR TO-DATE ACCUMULATED
DRAINAGE WATER VOLUME
YEAR TO-DATE ACCUMULATED
DRAINAGE WATER VOLUME
YEAR TO-DATE ACCUMULATED
DRAINAGE WATER VOLUME - M3
PROCESSED WATER VOLUME
DAILY PROCESSED WATER VOLUME
DAILY PROCESSED WATER VOLUME
DAILY PROCESSED WATER
VOLUME - SM3
MONTH TO-DATE ACCUMULATED
PROCESSED WATER VOLUME
MONTH TO-DATE ACCUMULATED
PROCESSED WATER VOLUME
MONTH TO-DATE ACCUMULATED
PROCESSED WATER VOLUME SM3
MONTH TO-DATE AVERAGE PROCESSED
WATER VOLUME
MONTH TO-DATE AVERAGE PROCESSED
WATER VOLUME
MONTH TO-DATE AVERAGE
PROCESSED WATER VOLUME SM3
YEAR TO-DATE ACCUMULATED
PROCESSED WATER VOLUME
YEAR TO-DATE ACCUMULATED
PROCESSED WATER VOLUME SM3
PRODUCED WATER VOLUME
DAILY WATER PRODUCTION VOLUME
DAILY WATER PRODUCTION VOLUME
A month to-date accumulated discharged water overboard volume
that is measured in standard cubic metre.
A dischargeded water overboard volume that is the accumulated
volume of water that has been drained to sea from the installation
to-date in reporting year.
A year to-date accumulated discharged water overboard volume
that is measured in standard cubic metre.
A water volume that is the volume of water that has been running
through an open drain system.
A drainage water volume that is the daily (24 hour) volume of
water that has been running through the open drain system on the
installation at a given date.
A drainage water volume that is the daily (24 hour) volume of
water that has been running through the open drain system on the
installation at a given date.
A daily drainage water volume that is measured in cubic metre at
prevailing t&p.
A drainage water volume that is the accumulated volume of water
that has been running through the open drain system on the
installation to-date in reporting month.
A drainage water volume that is the accumulated volume of water
that has been running through the open drain system on the
installation to-date in reporting month.
A month to-date accumulated drainage water volume that is
measured in cubic metre at prevailing t&p.
A drainage water volume that is the accumulated volume of water
that has been running through the open drain system on the
installation system to-date in reporting year.
A drainage water volume that is the accumulated volume of water
that has been running through the open drain system on the
installation system to-date in reporting year.
A year to-date accumulated drainage water volume that is
measured in cubic metre at prevailing t&p.
A water volume that is the volume of water that has been
processed in the water cleaning system on the installation.
A processed water volume that is the daily (24 hour) volume of
water that has been processed in the water cleaning system at a
given date.
A processed water volume that is the daily (24 hour) volume of
water that has been processed in the water cleaning system at a
given date.
A daily processed water volume that is measured in standard
cubic metre.
A processed water volume that is the accumulated volume of
water that has been processed in the water cleaning system todate in reporting month.
A processed water volume that is the accumulated volume of
water that has been processed in the water cleaning system todate in reporting month.
A month to-date accumulated processed water volume that is
measured in standard cubic metre.
A processed water volume that is the average volume of water that
has been processed in the water cleaning system per day to-date
in reporting month.
A processed water volume that is the average volume of water that
has been processed in the water cleaning system per day to-date
in reporting month.
A month to-date average processed water volume that is
measured in standard cubic metre.
A processed water volume that is the accumulated volume of
water that has been processed in the water cleaning system todate in reporting year.
A year to-date accumulated processed water volume that is
measured in standard cubic metre.
A water volume which is the volume of water produced from a well.
A produced water volume that is the daily (24 hour) water
production volume at a given date.
A produced water volume that is the daily (24 hour) water
production volume at a given date.
A-14
Appendix 1 - Terminology
Term
Definition
DAILY WATER PRODUCTION
VOLUME - SM3
A daily water production volume that is measured in standard
cubic metre.
A daily water production volume that is the daily (24 hour)
DAILY WATER PRODUCTION
calculated or measured water production volume from a specific
VOLUME FROM WELL
well at a given date.
DAILY WATER PRODUCTION
A daily water production volume from well that is measured in
VOLUME FROM WELL
standard cubic metre.
MONTH TO-DATE ACCUMULATED WATER A produced water volume that is the accumulated production
PRODUCTION VOLUME
volume of water to-date in reporting month.
MONTH TO-DATE ACCUMULATED WATER A produced water volume that is the accumulated production
PRODUCTION VOLUME
volume of water to-date in reporting month.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated water production volume that is
WATER PRODUCTION VOLUME measured in standard cubic metre.
SM3
MONTH TO-DATE AVERAGE WATER
A produced water volume that is the average production volume of
PRODUCTION VOLUME
water per day to-date in reporting month.
MONTH TO-DATE AVERAGE WATER
A produced water volume that is the average production volume of
PRODUCTION VOLUME
water per day to-date in reporting month.
MONTH TO-DATE AVERAGE
A month to-date average water production volume that is
WATER PRODUCTION VOLUME measured in standard cubic metre.
SM3
PRODUCED WATER OVERBOARD
A produced water volume that is the volume of produced water
VOLUME
that has been drained to sea.
PRODUCED WATER OVERBOARD
A produced water volume that is the volume of produced water
VOLUME
that has been drained to sea.
A produced water overboard volume that is the daily (24 hour)
DAILY PRODUCED WATER
volume of produced water that has been drained to sea from the
OVERBOARD VOLUME
installation at a given date.
DAILY PRODUCED WATER
A daily produced water overboard volume that is measured in
OVERBOARD VOLUME
standard cubic metre.
A produced water overboard volume that is the daily (24 hour)
DAILY PRODUCED WATER
volume of produced water that has been drained to sea from the
OVERBOARD VOLUME
installation at a given date.
MONTH TO-DATE ACCUMULATED A produced water overboard volume that is the accumulated
PRODUCED WATER OVERBOARD volume of produced water that has been drained to sea from the
installation to-date in reporting month.
VOLUME
MONTH TO-DATE ACCUMULATED
A month to-date accumulated produced water overboard volume
PRODUCED WATER OVERBOARD
that is measured in standard cubic metre.
VOLUME
MONTH TO-DATE ACCUMULATED A produced water overboard volume that is the accumulated
PRODUCED WATER OVERBOARD volume of produced water that has been drained to sea from the
installation to-date in reporting month.
VOLUME
A produced water overboard volume that is the average volume of
MONTH TO-DATE AVERAGE
PRODUCED WATER OVERBOARD produced water that has been drained to sea from the installation
per day to-date in reporting month.
VOLUME
MONTH TO-DATE AVERAGE
A month to-date average produced water overboard volume that is
PRODUCED WATER OVERBOARD
measured in standard cubic metre.
VOLUME
MONTH TO-DATE AVERAGE
A produced water overboard volume that is the average volume of
PRODUCED WATER OVERBOARD produced water that has been drained to sea from the installation
VOLUME
per day to-date in reporting month.
YEAR TO-DATE ACCUMULATED
A produced water overboard volume that is the accumulated
PRODUCED WATER OVERBOARD volume of produced water that has been drained to sea from the
installation to-date in reporting year.
VOLUME
YEAR TO-DATE ACCUMULATED
A produced water overboard volume that is the accumulated
PRODUCED WATER OVERBOARD volume of produced water that has been drained to sea from the
VOLUME
installation to-date in reporting year.
YEAR TO-DATE ACCUMULATED
A year to-date accumulated produced water overboard volume
PRODUCED WATER OVERBOARD
that is measured in standard cubic metre.
VOLUME
PRODUCED WATER VOLUME - SM3
A produced water volume, measured in standard cubic metre.
YEAR TO-DATE ACCUMULATED WATER
A produced water volume that is the accumulated production
PRODUCTION VOLUME
volume of water to-date in reporting year.
YEAR TO-DATE ACCUMULATED
A year to-date accumulated water production volume that is
WATER PRODUCTION VOLUME measured in standard cubic metre.
SM3
A water volume that is the volume of water exported from an
WATER EXPORT VOLUME
installation.
A water export volume that is the daily (24 hour) water export
DAILY WATER EXPORT VOLUME
volume at a given date.
A water export volume that is the daily (24 hour) water export
DAILY WATER EXPORT VOLUME
volume at a given date.
DAILY WATER EXPORT VOLUME - A daily water export volume that is measured in cubic metre at
M3
prevailing temperature and pressure.
A-15
Appendix 1 - Terminology
Term
Definition
MONTH TO-DATE ACCUMULATED WATER
EXPORT VOLUME
MONTH TO-DATE ACCUMULATED WATER
EXPORT VOLUME
MONTH TO-DATE ACCUMULATED
WATER EXPORT VOLUME - M3
MONTH TO-DATE AVERAGE WATER
EXPORT VOLUME
MONTH TO-DATE AVERAGE WATER
EXPORT VOLUME
MONTH TO-DATE AVERAGE
WATER EXPORT VOLUME - M3
YEAR TO-DATE ACCUMULATED WATER
EXPORT VOLUME
YEAR TO-DATE ACCUMULATED
WATER EXPORT VOLUME - M3
WATER INJECTION VOLUME
TOTAL WATER INJECTION VOLUME
TOTAL WATER INJECTION
VOLUME - M3
YEAR TO-DATE ACCUMULATED WATER
INJECTION VOLUME
YEAR TO-DATE ACCUMULATED
WATER INJECTION VOLUME BBLS
YEAR TO-DATE ACCUMULATED
WATER INJECTION VOLUME - M3
YEAR TO-DATE ACCUMULATED
WATER INJECTION VOLUME SM3
A water export volume that is the accumulated export volume of
water to-date in reporting month.
A water export volume that is the accumulated export volume of
water to-date in reporting month.
A month to-date accumulated water export volume that is
measured in cubic metre at prevailing temperature and pressure.
A water export volume that is the average export volume of water
per day to-date in reporting month.
A water export volume that is the average export volume of water
per day to-date in reporting month.
A month to-date average water export volume that is measured in
cubic metre at prevailing temperature and pressure.
A water export volume that is the accumulated export volume of
water to-date in reporting year.
A year to-date accumulated water export volume that is measured
in cubic metre at prevailing temperature and pressure.
An injection volume that is the volume occupied by injected water.
A water injection volume that is the accumulated volume of water
injected into a well over its life time.
A total water injection volume that is measured in cubic metre at
prevailing t&p.
A water injection volume that is the accumulated injection volume
of water to-date in reporting year.
A year to-date accumulated water injection volume that is
measured in US barrels.
A year to-date accumulated water injection volume that is
measured in cubic metre at prevailing temperature and pressure.
A year to-date accumulated water injection volume that is
measured in standard cubic metre.
General volume terms
Term
Definition
VOLUME
V = tripple integral (dx.dy.dz) where x, y and z are cartesian coordinates
CAPACITY (VOLUME)
A volume which can be contained
TOTAL TANK CAPACITY
DAILY ESTIMATED LOSS OF PRODUCTION
VOLUME
DAILY EST LOSS OF PROD DUE TO
EXTENDED MAINTENANCE TURNAROUND
ON EXPORT TERMINAL
DAILY ESTIM LOSS OF PRODUCTION
VOLUME DUE TO WELL EQUP FAILURE
AND MAINTENANCE
DAILY ESTIM LOSS OF PROD DUE TO
WELL EQUIP FAILURE AND MAINTEN SM3
DAILY ESTIMATED LOSS OF PRODUCTION
DUE TO 3RD PARTY PROCESSING
DAILY ESTIMATED LOSS OF
PRODUCTION DUE TO 3RD PARTY
PROCESSING - SM3
DAILY ESTIMATED LOSS OF PRODUCTION
DUE TO EQUIPMENT FAILURE
MAINTENANCE TOPSIDE
DAILY ESTIM LOSS OF PROD DUE TO
EQUIP FAILURE MAINTENANCE
TOPSIDE - SM3
DAILY ESTIMATED LOSS OF PRODUCTION
DUE TO EXTENDED MAINTENANCE
TURNAROUND
DAILY ESTIM LOSS OF PROD DUE TO
EXTENDED MAINTENANCE
TURNAROUND - SM3
DAILY ESTIMATED LOSS OF PRODUCTION
A capacity (volume) that is the total tank capacity.
A volume that is the daily (24 hours) estimated loss of hydrocabon
production.
A daily estimated loss of production that is due to extended maintenance
turnaround on export terminal..
A daily estimated loss of production volume that is due to well equipment
failure and maintenence.
A daily estimated loss of production volume due to well equipment failure and
maintenence measured in standard cubic metre.
A daily estimated loss of production that is due to 3rd party processing.
A daily estimated loss of production due to 3rd party processing that is
measured in standard cubic metre.
A daily estimated loss of production volume that is due to equipment failure
maintenance topside.
A daily estimated loss of production volume due to equipment failure
maintenance topside that is measured in standard cubic metre.
A daily estimated loss of production that is due to extended maintenance
turnaround.
A daily estimated loss of production volume due to extended maintenance
turnaround that is measured in standard cubic metre.
A daily estimated loss of production that is due to lost gas export due to
A-16
Appendix 1 - Terminology
Term
Definition
DUE TO LOST GAS EXPORT DUE TO
MARKET
DAILY ESTIM LOSS OF PROD DUE TO
LOST GAS EXPORT DUE TO MARKET SM3
DAILY ESTIMATED LOSS OF PRODUCTION
DUE TO LOST OIL EXPORT DUE TO
MARKET
DAILY ESTIM LOSS OF PROD DUE TO
LOST OIL EXPORT DUE TO MARKET SM3
DAILY ESTIMATED LOSS OF PRODUCTION
DUE TO MODIFICATION PROJECTS
DAILY ESTIM LOSS OF PROD DUE TO
MODIFICATION PROJECTS - SM3
DAILY ESTIMATED LOSS OF PRODUCTION
DUE TO OPERATION MISTAKES
REFERENCE
DAILY ESTIM LOSS OF PROD DUE TO
OPERATION MISTAKES REFERENCE SM3
market.
A daily estimated loss of production due to lost gas export due to market that
is measured in standard cubic metre.
A daily estimated loss of production that is due to lost oil export to market.
A daily estimated loss of production due to lost oil export due to market that is
measured in standard cubic metre.
A daily estimated loss of production volume that is due to modification
projects.
A daily estimated loss of production volume due to modification projects
measured in standard cubic metre.
A daily estimated loss of production that is due to operation mistakes
reference.
A daily estimated loss of production volume due to operation mistakes
reference that is measured in standard cubic metre.
A daily estimated loss of production that is due to other reasons than
(1)regulatory reference, (2)resservoir losses, (3)well equipment failure and
maintenence, (4)well preventiv maintenence, (5)planned well operation,
(6)well testing and logging, (7)preventive maintenance topside,
DAILY ESTIMATED LOSS OF PRODUCTION
(8)modification projects, (9)process and operation problems, (10)equipment
DUE TO OTHER REASONS
failure maintenance topside, (11)operation mistakes reference, (12)planned
maintenance turnaround, (13)3rd party processing, (14)unavailiable tanker
storage, (15)lost gas export due to market or (16)lost oil export due to
market.
DAILY ESTIMATED LOSS OF
A daily estimated loss of production due to other reasons that is measured in
PRODUCTION DUE TO OTHER
standard cubic metre.
REASONS - SM3
DAILY ESTIMATED LOSS OF PRODUCTION
A daily estimated loss of production that is due to planned maintenance
DUE TO PLANNED MAINTENANCE
turnaround.
TURNAROUND
DAILY ESTIMATED LOSS OF
A daily estimated loss of production due planned maintenance turnaround
PRODUCTION DUE TO PLANNED
that is measured in standard cubic metre.
MAINTENANCE TURNAROUND - SM3
DAILY ESTIMATED LOSS OF PRODUCTION
A daily estimated loss of production volume that is due to preventive
DUE TO PREVENTIVE MAINTENANCE
maintenance topside.
TOPSIDE
DAILY ESTIMATED LOSS OF
A daily estimated loss of production volume due to preventive maintenance
PRODUCTION DUE TO PREVENTIVE
topside that is measured in standard cubic metre.
MAINTENANCE TOPSIDE - SM3
DAILY ESTIMATED LOSS OF PRODUCTION
A daily estimated loss of production volume that is due to process and
DUE TO PROCESS AND OPERATION
operation problems.
PROBLEMS
A daily estimated loss of production volume due to process and operation
DAILY ESTIM LOSS OF PROD DUE TO
PROCESS AND OPER PROBLEMS - SM3 problems that is measured in standard cubic metre.
DAILY ESTIMATED LOSS OF PRODUCTION
DUE TO UNAVAILIABLE TANKER
A daily estimated loss of production that is due to unavailiable tanker storage.
STORAGE
DAILY ESTIM LOSS OF PROD DUE TO
A daily estimated loss of production due to unavailiable tanker storage that is
UNAVAILIABLE TANKER STORAGE measured in standard cubic metre.
SM3
DAILY ESTIMATED LOSS OF PRODUCTION
A daily estimated loss of production volume that is caused by well preventive
DUE TO WELL PREVENTIVE
maintenence.
MAINTENANCE
DAILY ESTIM LOSS OF PROD DUE TO
A daily estimated loss of production volume due to well preventive
WELL PREVENT MAINTENANCE - SM3
maintenence measured in standard cubic metre.
DAILY ESTIMATED LOSS OF PRODUCTION A daily estimated loss of production volume that is due to well testing and
DUE TO WELL TESTING AND LOGGING
logging.
DAILY ESTIM LOSS OF PROD DUE TO
A daily estimated loss of production volume due to well testing and logging
WELL TESTING AND LOGGING - SM3
measured in standard cubic metre.
DAILY ESTIMATED LOSS OF PRODUCTION
A daily estimated loss of production volume that is due to planned well
VOLUME DUE TO PLANNED WELL
operation.
OPERATION
DAILY ESTIM LOSS OF PRODUCT DUE
A daily estimated loss of production volume due to planned well operation
TO PLANNED WELL OPERATION - SM3
measured in standard cubic metre.
DAILY ESTIMATED LOSS OF PRODUCTION
VOLUME DUE TO REGULATORY
A daily estimated loss of production that is due to regulatory reference.
REASONS
DAILY ESTI LOSS OF PRODUCTION DUE A daily estimated loss of hydrocarbon production due to regulatory reference
A-17
Appendix 1 - Terminology
Term
Definition
TO REGULATORY REFERENCE - SM3
measured in standard cubic metre.
DAILY ESTIMATED LOSS OF PRODUCTION
VOLUME DUE TO RESERVOIR LOSSES
DAILY ESTIM LOSS OF PRODUCTION
DUE TO RESERVOIR LOSSES - SM3
DAILY TOTAL LOSS OF PRODUCTION
VOLUME
DAILY TOTAL LOSS OF PRODUCTION
VOLUME - SM3
DAILY TOTAL PRODUCT EXPORT VOLUME TO
STOCK TANK
DAILY TOTAL PRODUCT EXPORT
VOLUME TO STOCK TANK - SM3
HYDROCARBON INVENTORY IN STOCK TANK
AT 24:00
INJECTION VOLUME
A daily estimated loss of production volume that is due to resservoir losses.
A daily estimated loss of production volume due to resservoir losses
measured in standard cubic metre.
A daily estimated loss of production volume that is the total loss of
hydrocarbons.
A daily estimated loss of production volume measured in standard cubic
metre.
A volume that is the total daily (24 hour) volume of a product exported to all
stock tanks at a given date.
A daily total product export volume to stock tank that is measured in standard
cubic metre.
A volume that is the inventory of hydrocarbons in a stock tank (Cell stock) at
24:00 a given date.
A volume that is the volume occupied by injected matter.
GAS INJECTION VOLUME
An injection volume that is the volume occupied by injected gas.
A gas injection volume that is the daily (24 hour) accumulated volume of gas
DAILY GAS INJECTION VOLUME
which has been injected into a well at a given date.
DAILY GAS INJECTION VOLUME - SM3 A daily gas injection volume that is measured in standard cubic metre.
A gas injection volume that is the daily (24 hour) accumulated volume of gas
DAILY GAS INJECTION VOLUME
which has been injected into a well at a given date.
MONTH TO-DATE ACCUMULATED GAS
A gas injection volume that is the accumulated injection volume of gas toINJECTION VOLUME
date in reporting month.
MONTH TO-DATE AVERAGE GAS
A gas injection volume that is the average injection volume of gas per day toINJECTION VOLUME
date in reporting month.
YEAR TO-DATE ACCUMULATED GAS
A gas injection volume that is the accumulated injection volume of gas toINJECTION VOLUME
date in reporting year.
WATER INJECTION VOLUME
An injection volume that is the volume occupied by injected water.
A water injection volume that is the daily (24 hour) accumulated volume of
DAILY WATER INJECTION VOLUME
water which has been injected into a well at a given date.
DAILY WATER INJECTION VOLUME A daily water injection volume that is measured in standard cubic metre.
SM3
DAILY WATER INJECTION VOLUME A daily water injection volume that is measured in cubic metre at prevailing
M3
t&p.
DAILY WATER INJECTION VOLUME A daily water injection volume that is measured in US barrel.
BBLS
A water injection volume that is the daily (24 hour) accumulated volume of
DAILY WATER INJECTION VOLUME
water which has been injected into a well at a given date.
MONTH TO-DATE ACCUMULATED
A water injection volume that is the accumulated injection volume of water toWATER INJECTION VOLUME
date in reporting month.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated water injection volume that is measured in
standard cubic metre.
WATER INJECTION VOLUME - SM3
MONTH TO-DATE ACCUMULATED
A month to-date accumulated water injection volume that is measured in
WATER INJECTION VOLUME - M3
cubic metre at prevailing temperature and pressure.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated water injection volume that is measured in US
WATER INJECTION VOLUME - BBLS
barrels.
MONTH TO-DATE ACCUMULATED
A water injection volume that is the accumulated injection volume of water toWATER INJECTION VOLUME
date in reporting month.
MONTH TO-DATE AVERAGE WATER
A water injection volume that is the average injection volume of water per day
INJECTION VOLUME
to-date in reporting month.
MONTH TO-DATE AVERAGE WATER
A month to-date average water injection volume that is measured in standard
INJECTION VOLUME - SM3
cubic metre.
MONTH TO-DATE AVERAGE WATER
A month to-date average water injection volume that is measured in cubic
INJECTION VOLUME - M3
metre at prevailing temperature and pressure.
MONTH TO-DATE AVERAGE WATER
A month to-date average water injection volume that is measured in US
INJECTION VOLUME - BBLS
barrels.
MONTH TO-DATE AVERAGE WATER
A water injection volume that is the average injection volume of water per day
INJECTION VOLUME
to-date in reporting month.
A water injection volume that is the accumulated volume of water injected
TOTAL WATER INJECTION VOLUME
into a well over its life time.
YEAR TO-DATE ACCUMULATED WATER A water injection volume that is the accumulated injection volume of water toINJECTION VOLUME
date in reporting year.
Mass terms
Term
MASS
Definition
ISO 31-3:1992(E) Mass is one of the base quantities in the SI system
A-18
Appendix 1 - Terminology
Term
Definition
EXPORTED OIL MASS
DAILY NET OIL EXPORT MASS
DAILY NET OIL EXPORT MASS - TONNE
MONTH TO-DATE ACCUMULATED NET OIL
EXPORT MASS
MONTH TO-DATE ACCUMULATED NET
OIL EXPORT MASS - TONNE
MONTH TO-DATE AVERAGE NET OIL
EXPORT MASS
MONTH TO-DATE AVERAGE NET OIL
EXPORT MASS - TONNE
YEAR TO-DATE ACCUMULATED NET OIL
EXPORT MASS
YEAR TO-DATE ACCUMULATED NET OIL
EXPORT MASS
YEAR TO-DATE ACCUMULATED NET
OIL EXPORT MASS - TONNE
GROSS OIL MASS
DAILY GROSS OIL PRODUCTION MASS
DAILY GROSS OIL PRODUCTION MASS TONNE
MONTH TO-DATE ACCUMULATED GROSS
OIL PRODUCTION MASS
MONTH TO-DATE ACCUMULATED
GROSS OIL PRODUCTION MASS TONNE
MONTH TO-DATE AVERAGE GROSS OIL
PRODUCTION MASS
MONTH TO-DATE AVERAGE GROSS OIL
PRODUCTION MASS - TONNE
YEAR TO-DATE ACCUMULATED GROSS OIL
PRODUCTION MASS
YEAR TO-DATE ACCUMULATED GROSS
OIL PRODUCTION MASS - TONNE
A mass that is the mass of oil exported from an installation.
An exported oil mass that is the daily (24 hour) exported mass of net oil at a
given date.
A daily net oil export mass that is measured in (metric) tonne.
An exported oil mass that is the accumulated mass of net oil exported to-date
in reporting month.
A month to-date accumulated net oil export mass that is measured in (metric)
tonne.
An exported oil mass that is the average export mass of net oil per day todate in reporting month.
A month to-date average net oil export mass that is measured in (metric)
tonne.
An exported oil mass that is the accumulated mass of net oil exported to-date
in reporting year.
An exported oil mass that is the accumulated mass of net oil exported to-date
in reporting year.
A year to-date accumulated net oil export mass that is measured in metric
tonne.
A mass that is the total mass of all petroleum liquids and sediments and
water, excluding free water, corrected by the appropriate volume correction
factor (Ci1) for the observed temperature and API gravity, relative density, or
density to a standard temperature such as 60 deg. F or 15 deg. C and also
corrected by the applicable pressure correction factor (Cp1) and meter factor.
A gross oil mass that is the gross produced mass of oil the last 24 hours at a
given date.
A daily gross oil production mass, measured in (metric) tonne.
A gross oil mass that is the gross accumulated mass of oil produced to-date
in reporting month.
A month to-date accumulated gross oil production mass, measured in
(metric) tonne.
A gross oil mass that is the average gross mass production of oil per day todate in reporting month.
A month to-date average gross oil production mass, measured in (metric)
tonne.
A gross oil mass that is the gross accumulated mass of oil produced to-date
in reporting year.
A year to-date accumulated gross oil production mass, measured in metric
tonne.
Gas mass terms
Term
Definition
GAS MASS
CO GAS MASS
DAILY CO GAS EMITTED MASS
MONTH TO-DATE ACCUMULATED CO
GAS EMITTED MASS
MONTH TO-DATE ACCUMULATED CO
GAS EMITTED MASS - KG
MONTH TO-DATE AVERAGE CO GAS
EMITTED MASS
MONTH TO-DATE AVERAGE CO GAS
EMITTED MASS - KG
YEAR TO-DATE ACCUMULATED CO
GAS EMITTED MASS
YEAR TO-DATE ACCUMULATED CO
GAS EMITTED MASS - TONNE
CO2 GAS MASS
DAILY CO2 GAS EMITTED MASS
DAILY CO2 GAS EMITTED MASS - KG
MONTH TO-DATE ACCUMULATED CO2
GAS EMITTED MASS
MONTH TO-DATE ACCUMULATED
CO2 GAS EMITTED MASS - KG
A mass that is the mass of a quantity gas.
A gas mass that is the mass of Carbon Monoxide gas.
A CO gas mass that is the daily (24 hour) mass of CO gas (Carbon
Monoxide) that is emitted to the atmosphere at a given date.
A CO gas mass that is the accumulated mass of CO gas (Carbon Monoxide)
emitted to-date in reporting month.
A month to-date accumulated CO gas emitted mass that is measured in
kilogram.
A CO gas mass that is the average mass of CO gas (Carbon Monoxide)
emitted per day to-date in reporting month.
A month to-date average CO gas emitted mass that is measured in kilogram.
A CO gas mass that is the accumulated mass of CO gas (Carbon Monoxide)
emitted to-date in reporting year.
A year to-date accumulated CO gas emitted mass that is measured in
kilogram.
A gas mass that is the mass of Carbon Dioxide (CO2).
A CO2 gas mass that is the daily (24 hour) mass of CO2 gas (Carbon
Dioxide) that is emitted to the atmosphere at a given date.
A daily CO2 gas emitted mass that is measured in kilogram.
A CO2 gas mass that is the accumulated mass of CO2 gas (Carbon Dioxide)
emitted to-date in reporting month.
A month to-date accumulated CO2 gas emitted mass that is measured in
kilogram.
A-19
Appendix 1 - Terminology
Term
Definition
MONTH TO-DATE AVERAGE CO2 GAS
EMITTED MASS
MONTH TO-DATE AVERAGE CO2 GAS
EMITTED MASS - KG
YEAR TO-DATE ACCUMULATED CO2
GAS EMITTED MASS
YEAR TO-DATE ACCUMULATED CO2
GAS EMITTED MASS - TONNE
DAILY CO GAS EMITTED MASS
DAILY CO GAS EMITTED MASS - KG
DAILY GAS IMPORT MASS
DAILY GAS IMPORT MASS - TONNE
FLARED GAS MASS
DAILY FLARED GAS MASS
DAILY FLARED GAS MASS - TONNE
MONTH TO-DATE ACCUMULATED
FLARED GAS MASS
MONTH TO-DATE ACCUMULATED
FLARED GAS MASS - TONNE
MONTH TO-DATE AVERAGE FLARED
GAS MASS
MONTH TO-DATE AVERAGE FLARED
GAS MASS - TONNE
YEAR TO-DATE ACCUMULATED
FLARED GAS MASS
YEAR TO-DATE ACCUMULATED
FLARED GAS MASS - TONNE
FUEL GAS MASS
DAILY FUEL GAS CONSUMPTION MASS
DAILY FUEL GAS CONSUMPTION
MASS - TONNE
YEAR TO-DATE ACCUMULATED FUEL
GAS CONSUMPTION MASS
MONTH TO-DATE ACCUMULATED FUEL
GAS CONSUMPTION MASS
MONTH TO-DATE ACCUMULATED
FUEL GAS CONSUMPTION MASS TONNE
MONTH TO-DATE AVERAGE FUEL GAS
CONSUMPTION MASS
MONTH TO-DATE AVERAGE FUEL
GAS CONSUMPTION MASS - TONNE
YEAR TO-DATE ACCUMULATED FUEL
GAS CONSUMPTION MASS - TONNE
GAS EXPORT MASS
DAILY GAS EXPORT MASS
DAILY GAS EXPORT MASS - TONNE
MONTH TO-DATE ACCUMULATED GAS
EXPORT MASS
MONTH TO-DATE ACCUMULATED
GAS EXPORT MASS - TONNE
MONTH TO-DATE AVERAGE GAS
EXPORT MASS
MONTH TO-DATE AVERAGE GAS
EXPORT MASS - TONNE
YEAR TO-DATE ACCUMULATED GAS
EXPORT MASS
YEAR TO-DATE ACCUMULATED GAS
EXPORT MASS - TONNE
GAS INJECTION MASS
DAILY GAS INJECTION MASS
DAILY GAS INJECTION MASS TONNE
MONTH TO-DATE ACCUMULATED GAS
INJECTION MASS
A CO2 gas mass that is the average mass of CO2 gas (Carbon Dioxide)
emitted per day to-date in reporting month.
A month to-date average CO2 gas emitted mass that is measured in kilogram.
A CO2 gas mass that is the accumulated mass of CO2 gas (Carbon Dioxide)
emitted to-date in reporting year.
A year to-date accumulated CO2 gas emitted mass that is measured in
(metric) tonne.
A CO gas mass that is the daily (24 hour) mass of CO gas (Carbon
Monoxide) that is emitted to the atmosphere at a given date.
A daily CO gas emitted mass that is measured in kilogram.
A gas mass that is the daily (24 hour) imported mass of gas at a given date.
A daily gas import mass that is measured in (metric) tonne.
A gas mass that is the mass of gas flared off.
A flared gas mass that is the daily (24 hour) mass of gas flared off at a given
date.
A daily flared gas mass that is measured in (metric) tonne.
A flared gas mass that is the accumulated mass of gas flared off to-date in
reporting month.
A month to-date accumulated flared gas mass that is measured in (metric)
tonne.
A flared gas mass that is the average mass of gas flared off per day to-date in
reporting month.
A month to-date average flared gas mass that is measured in (metric) tonne.
A flared gas mass that is the accumulated mass of gas flared off to-date in
reporting year.
A year to-date accumulated flared gas mass that is measured in (metric)
tonne.
A gas mass that is the mass of gas used for fuel.
A fuel gas mass that is the daily (24 hour) mass of gas consumed for fuel at a
given date.
A daily fuel gas consumption mass that is measured in (metric) tonne.
A fuel gas mass that is the accumulated mass of gas consumed for fuel todate in reporting year.
A fuel gas mass that is the accumulated mass of gas consumed for fuel todate in reporting month.
A month to-date accumulated fuel gas consumption mass that is measured in
(metric) tonne.
A fuel gas mass that is the average mass of gas consumed for fuel per day
to-date in reporting month.
A month to-date average fuel gas consumption mass that is measured in
(metric) tonne.
A year to-date accumulated fuel gas consumption mass that is measured in
(metric) tonne.
A gas mass that is the mass of a quantity natural gas that is exported from an
installation.
A gas export mass that is the daily (24 hour) exporteded mass of gas at a
given date.
A daily gas export mass that is measured in (metric) tonne.
A gas export mass that is the accumulated mass of gas exported to-date in
reporting month.
A month to-date accumulated gas export mass that is measured in (metric)
tonne.
A gas export mass that is the average mass export of gas per day to-date in
reporting month.
A month to-date average gas export mass that is measured in (metric) tonne.
A gas export mass that is the accumulated mass of gas exported to-date in
reporting year.
A year to-date accumulated gas export mass that is measured in metric
tonne.
A gas mass that is the mass of gas injected on an installation.
A gas injection mass that is the daily (24 hour) injected mass of gas at a given
date.
A daily gas injection mass that is measured in (metric) tonne.
A gas injection mass that is the accumulated injected mass of gas to-date in
reporting month.
A-20
Appendix 1 - Terminology
Term
Definition
MONTH TO-DATE ACCUMULATED
GAS INJECTION MASS - TONNE
MONTH TO-DATE AVERAGE GAS
INJECTION MASS
MONTH TO-DATE AVERAGE GAS
INJECTION MASS - TONNE
YEAR TO-DATE ACCUMULATED GAS
INJECTION MASS
YEAR TO-DATE ACCUMULATED GAS
INJECTION MASS - TONNE
MONTH TO-DATE ACCUMULATED GAS
IMPORT MASS
MONTH TO-DATE ACCUMULATED GAS
IMPORT MASS - TONNE
MONTH TO-DATE ACCUMULATED NOX GAS
EMITTED MASS
MONTH TO-DATE ACCUMULATED NOX
GAS EMITTED MASS - KG
MONTH TO-DATE AVERAGE GAS IMPORT
MASS
MONTH TO-DATE AVERAGE GAS
IMPORT MASS - TONNE
NOX GAS MASS
DAILY NOX GAS EMITTED MASS
DAILY NOX GAS EMITTED MASS - KG
MONTH TO-DATE ACCUMULATED NOX
GAS EMITTED MASS
MONTH TO-DATE AVERAGE NOX GAS
EMITTED MASS
MONTH TO-DATE AVERAGE NOX
GAS EMITTED MASS - KG
YEAR TO-DATE ACCUMULATED NOX
GAS EMITTED MASS
YEAR TO-DATE ACCUMULATED NOX
GAS EMITTED MASS - TONNE
PRODUCED GAS MASS
DAILY GAS PRODUCTION MASS
DAILY GAS PRODUCTION MASS TONNE
A month to-date accumulated gas injection mass that is measured in (metric)
tonne.
A gas injection mass that is the average injection mass of gas per day to-date
in reporting month.
A month to-date average gas injection mass that is measured in (metric)
tonne.
A gas injection mass that is the accumulated injection mass of gas to-date in
reporting year.
A year to-date accumulated gas injection mass that is measured in (metric)
tonne.
A gas mass that is the accumulated mass of gas imported to-date in reporting
month.
A month to-date accumulated gas import mass that is measured in (metric)
tonne.
A NOX gas mass that is the accumulated mass of NOX gas (Nitrogen Oxides)
emitted to-date in reporting month.
A month to-date accumulated NOX gas emitted mass that is measured in
kilogram.
A gas mass that is the average mass import of gas per day to-date in
reporting month.
A month to-date average gas import mass that is measured in (metric) tonne.
A gas mass that is the mass of Nitrogen Oxides (NOX).
A NOX gas mass that is the daily (24 hour) mass of NOX gas (Nitrogen
Oxides) that is emitted to the atmosphere at a given date.
A daily NOX gas emitted mass that is measured in kilogram.
A NOX gas mass that is the accumulated mass of NOX gas (Nitrogen Oxides)
emitted to-date in reporting month.
A NOX gas mass that is the average mass of NOX gas (Nitrogen Oxides)
emitted per day to-date in reporting month.
A month to-date average NOX gas emitted mass that is measured in
kilogram.
A NOX gas mass that is the accumulated mass of NOX gas (Nitrogen Oxides)
emitted to-date in reporting year.
A year to-date accumulated NOX gas emitted mass that is measured in
(metric) tonne.
A gas mass which is the mass of gas produced from a well.
A produced gas mass that is the daily (24 hour) produced mass of gas at a
given date.
A daily gas production mass that is measured in (metric) tonne.
A produced gas mass that is the daily (24 hour) produced mass of rich gas at
a given date.
DAILY RICH GAS PRODUCTION MASS
DAILY RICH GAS PRODUCTION MASS
- TONNE
MONTH TO-DATE ACCUMULATED GAS
PRODUCTION MASS
MONTH TO-DATE ACCUMULATED
GAS PRODUCTION MASS - TONNE
MONTH TO-DATE ACCUMULATED RICH
GAS PRODUCTION MASS
MONTH TO-DATE ACCUMULATED
RICH GAS PRODUCTION MASS TONNE
MONTH TO-DATE AVERAGE GAS
PRODUCTION MASS
MONTH TO-DATE AVERAGE GAS
PRODUCTION MASS - TONNE
MONTH TO-DATE AVERAGE RICH GAS
PRODUCTION MASS
MONTH TO-DATE AVERAGE RICH
GAS PRODUCTION MASS - TONNE
PRODUCED GAS MASS
DAILY GAS PRODUCTION MASS
YEAR TO-DATE ACCUMULATED GAS
PRODUCTION MASS
YEAR TO-DATE ACCUMULATED GAS
PRODUCTION MASS - TONNE
YEAR TO-DATE ACCUMULATED RICH
GAS PRODUCTION MASS
YEAR TO-DATE ACCUMULATED RICH
GAS PRODUCTION MASS - TONNE
A daily rich gas production mass that is measured in (metric) tonne.
A produced gas mass that is the accumulated mass of gas produced to-date
in reporting month.
A month to-date accumulated gas production mass that is measured in
(metric) tonne.
A produced gas mass that is the accumulated mass of rich gas produced todate in reporting month.
A month to-date accumulated rich gas production mass that is measured in
(metric) tonne.
A produced gas mass that is the average mass production of gas per day todate in reporting month.
A month to-date average gas production mass that is measured in (metric)
tonne.
A produced gas mass that is the average mass production of rich gas per day
to-date in reporting month.
A month to-date average rich gas production mass that is measured in
(metric) tonne.
A gas mass which is the mass of gas produced from a well.
A produced gas mass that is the daily (24 hour) produced mass of gas at a
given date.
A produced gas mass that is the accumulated mass of gas produced to-date
in reporting year.
A year to-date accumulated production mass that is measured in (metric)
tonne.
A produced gas mass that is the accumulated mass of rich gas produced todate in reporting year.
A year to-date accumulated rich gas production mass that is measured in
metric tonne.
A-21
Appendix 1 - Terminology
Term
Definition
A gas mass that is the year to-date accumulated gas mass quantity imported
to the installation to-date in reporting year.
YEAR TO-DATE GAS IMPORT MASS
YEAR TO-DATE GAS IMPORT MASS TONNE
A year to-date gas import mass that is measured in (metric) tonne.
Liquid mass terms
Term
Definition
LIQUID
MASS
A mass that is the mass of a quantity liquid.
LIQUID PRODUCTION MASS
DAILY LIQUID PRODUCTION MASS
INCLUDING WATER
DAILY LIQUID PRODUCTION MASS
INCLUDING WATER - TONNE
MONTH TO-DATE ACCUMULATED LIQUID
PRODUCTION MASS INCLUDING WATER
MONTH TO-DATE ACCUMULATED
LIQUID PRODUCTION MASS
INCLUDING WATER - TONNE
MONTH TO-DATE ACCUMULATED NET OIL
PRODUCTION MASS
MONTH TO-DATE ACCUMULATED NET
OIL PRODUCTION MASS - TONNE
MONTH TO-DATE AVERAGE LIQUID
PRODUCTION MASS INCLUDING WATER
MONTH TO-DATE AVERAGE LIQUID
PRODUCTION MASS INCLUDING
WATER - TONNE
YEAR TO-DATE ACCUMULATED LIQUID
PRODUCTION MASS INCLUDING WATER
YEAR TO-DATE ACCUMULATED
LIQUID PRODUCTION MASS
INCLUDING WATER - TONNE
NATURAL GAS LIQUID MASS
DAILY NATURAL GAS LIQUID IN GAS
EXPORT MASS
DAILY NATURAL GAS LIQUID IN GAS
EXPORT MASS - TONNE
DAILY NATURAL GAS LIQUID PRODUCTION
MASS
DAILY NATURAL GAS LIQUID
PRODUCTION MASS - TONNE
MONTH TO-DATE ACCUMULATED NATURAL
GAS LIQUID PRODUCTION MASS
MONTH TO-DATE ACCUMULATED
NATURAL GAS LIQUID PRODUCTION
MASS - TONNE
MONTH TO-DATE AVERAGE NATURAL GAS
LIQUID PRODUCTION MASS
MONTH TO-DATE AVERAGE NATURAL
GAS LIQUID PRODUCTION MASS TONNE
NATURAL GAS LIQUID MASS
YEAR TO-DATE ACCUMULATED NATURAL
GAS LIQUID PRODUCTION MASS
YEAR TO-DATE ACCUMULATED
NATURAL GAS LIQUID PRODUCTION
MASS - TONNE
OIL
MASS
A month to-date accumulated liquid production mass including
water that is measured in (metric) tonne.
A net oil mass that is the net accumulated mass of oil produced todate in reporting month.
A month to-date accumulated net oil production mass that is
measured in tonne.
A liquid production mass that is the average mass of liquid including
water produced per day to-date in reporting month.
A month to-date average liquid production mass including water
that is measured in (metric) tonne.
A liquid production mass that is the accumulated mass of liquid
including water, produced to-date in reporting year.
A year to-date accumulated liquid production mass including water
that is measured in (metric) tonne.
A liquid mass that is the mass of natural gas liquid (NGL).
A natural gas liquid mass that is the daily (24 hour) mass export of
natural gas liquid (NGL) transported with the gas at a given date.
A daily natural gas liquid in gas export mass that is measured in
(metric) tonne.
A natural gas liquid mass that is the daily (24 hour) produced mass
of natural gas liquid on a petroleum installtion at a given date.
A daily natural gas liquid production mass that is measured in
(metric) tonne.
A natural gas liquid mass that is the accumulated mass of natural
gas liquid produced to-date in reporting month.
A month to-date accumulated natural gas liquid production mass
that is measured in (metric) tonne.
A natural gas liquid mass that is the average mass production of
natural gas liquid per day to-date in reporting month.
A month to-date average natural gas liquid production mass that is
measured in (metric) tonne.
A liquid mass that is the mass of natural gas liquid (NGL).
A natural gas liquid mass that is the accumulated mass of natural
gas liquid produced to-date in reporting year.
A year to-date accumulated natural gas liquid production mass that
is measured in (metric) tonne.
A liquid mass that is the mass of an amount mineral oil.
An oil mass that is the mass of oil which include the total mass of all
petroleum liquids excluding sediments and water as well as free
water.
A net oil mass that is the net produced mass of oil the last 24 hours
at a given date.
NET OIL MASS
DAILY NET OIL PRODUCTION MASS
DAILY NET OIL PRODUCTION MASS
- TONNE
DAILY NET OIL PRODUCTION MASS
A liquid mass that is the mass of produced liquid including water on
an installation.
A liquid production mass that is the mass of liquid including water
produced the last 24 hours at a given date.
A daily liquid production including water that is measured in (metric)
tonne.
A liquid production mass that is the accumulated mass of liquid
including water produced to-date in reporting month.
A daily net oil production mass that is measured in (metric) tonne.
A net oil mass that is the net produced mass of oil the last 24 hours
at a given date.
A-22
Appendix 1 - Terminology
MONTH TO-DATE ACCUMULATED NET
OIL PRODUCTION MASS
MONTH TO-DATE AVERAGE NET OIL
PRODUCTION MASS
MONTH TO-DATE AVERAGE NET OIL
PRODUCTION MASS - TONNE
MONTH TO-DATE AVERAGE NET OIL
PRODUCTION MASS
YEAR TO-DATE ACCUMULATED NET
OIL PRODUCTION MASS
YEAR TO-DATE ACCUMULATED NET
OIL PRODUCTION MASS - TONNE
YEAR TO-DATE ACCUMULATED NET
OIL PRODUCTION MASS
PRODUCED HC-CONDENSATE MASS
DAILY HC-CONDENSATE PRODUCTION
MASS
DAILY HC-CONDENSATE
PRODUCTION MASS - TONNE
MONTH TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION MASS
MONTH TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION MASS TONNE
MONTH TO-DATE AVERAGE HCCONDENSATE PRODUCTION MASS
MONTH TO-DATE AVERAGE HCCONDENSATE PRODUCTION MASS TONNE
MONTH TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION MASS
YEAR TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION MASS
YEAR TO-DATE ACCUMULATED HCCONDENSATE PRODUCTION MASS TONNE
PRODUCED WATER MASS
DAILY WATER PRODUCTION MASS
DAILY WATER PRODUCTION MASS TONNE
MONTH TO-DATE ACCUMULATED WATER
PRODUCTION MASS
MONTH TO-DATE ACCUMULATED
WATER PRODUCTION MASS - TONNE
MONTH TO-DATE AVERAGE WATER
PRODUCTION MASS
MONTH TO-DATE AVERAGE WATER
PRODUCTION MASS - TONNE
YEAR TO-DATE ACCUMULATED WATER
PRODUCTION MASS
YEAR TO-DATE ACCUMULATED
WATER PRODUCTION MASS - TONNE
WATER
MASS
INJECTED WATER MASS
DAILY WATER INJECTION MASS TONNE
A net oil mass that is the net accumulated mass of oil produced todate in reporting month.
A net oil mass that is the net oil mass produced per day to-date in
reporting month.
A month to-date average net oil production mass that is measured
in tonne.
A net oil mass that is the net oil mass produced per day to-date in
reporting month.
A net oil mass that is the accumulated mass of oil produced to-date
in reporting year.
A year to-date accumulated net oil production mass that is
measured in metric tonne.
A net oil mass that is the accumulated mass of oil produced to-date
in reporting year.
A liquid mass which is the mass of hc-condensate produced from a
well.
A produced hc-condensate mass that is the daily (24 hour)
produced mass of hc-condensate at a given date.
A daily hc-condensate production mass that is measured in (metric)
tonne.
A produced hc-condensate mass that is the accumulated mass of
hc-condensate produced to-date in reporting month.
A month to-date accumulated hc-condensate production mass that
is measured in (metric) tonne.
A produced hc-condensate mass that is the average mass
production of hc-condensate per day to-date in reporting month.
A month to-date average hc-condensate production mass that is
measured in (metric) tonne.
A produced hc-condensate mass that is the accumulated mass of
hc-condensate produced to-date in reporting month.
A produced hc-condensate mass that is the accumulated mass of
hc-condensate produced to-date in reporting year.
A year to-date accumulated hc-condensate production mass that is
measured in metric tonne.
A liquid mass which is the mass of water produced from a well.
A produced water mass that is the daily (24 hour) produced mass of
water at a given date.
A daily water production mass that is measured in (metric) tonne.
A produced water mass that is the accumulated mass of water
produced to-date in reporting month.
A month to-date accumulated water production mass that is
measured in (metric) tonne.
A produced water mass that is the average mass production of
water per day to-date in reporting month.
A month to-date average water production mass that is measured in
(metric) tonne.
A produced water mass that is the accumulated mass of water
produced to-date in reporting year.
A yeat to-date accumulated water production mass that is
measured in metric tonne.
A liquid mass that is the mass of a quantity water.
A water mass that is the mass of water injected on an installation.
A daily injected water mass that is measured in (metric) tonne.
An injected water mass that is the daily (24 hour) injected mass of
water at a given date.
MONTH TO-DATE ACCUMULATED
An injected water mass that is the accumulated injected mass of
INJECTED WATER MASS
water to-date in reporting month.
MONTH TO-DATE ACCUMULATED
A month to-date accumulated injected water mass that is measured
INJECTED WATER MASS - TONNE
in (metric) tonne.
MONTH TO-DATE ACCUMULATED
An injected water mass that is the accumulated injected mass of
INJECTED WATER MASS
water to-date in reporting month.
MONTH TO-DATE AVERAGE INJECTED An injected water mass that is the average injected mass of water
WATER MASS
per day to-date in reporting month.
MONTH TO-DATE AVERAGE
A month to-date average injected water mass that is measured in
INJECTED WATER MASS - TONNE
(metric) tonne.
MONTH TO-DATE AVERAGE INJECTED An injected water mass that is the average injected mass of water
WATER MASS
per day to-date in reporting month.
YEAR TO-DATE ACCUMULATED
An injected water mass that is the accumulated injected mass of
INJECTED WATER MASS
water to-date in reporting year.
DAILY INJECTED WATER MASS
A-23
Appendix 1 - Terminology
YEAR TO-DATE ACCUMULATED
INJECTED WATER MASS - TONNE
YEAR TO-DATE ACCUMULATED
INJECTED WATER MASS
A year to-date accumulated injected water mass that is measured in
(metric) tonne.
An injected water mass that is the accumulated injected mass of
water to-date in reporting year.
A water mass that is the mass of a quantity water that has been
processed in the water cleaning system on the installation.
A processed water mass that is the daily (24 hour) mass of water
that has been processed in the water cleaning system at a given
date.
PROCESSED WATER MASS
DAILY PROCESSED WATER MASS
DAILY PROCESSED WATER MASS TONNE
DAILY PROCESSED WATER MASS
MONTH TO-DATE ACCUMULATED
PROCESSED WATER MASS
MONTH TO-DATE ACCUMULATED
PROCESSED WATER MASS - TONNE
MONTH TO-DATE ACCUMULATED
PROCESSED WATER MASS
MONTH TO-DATE AVERAGE
PROCESSED WATER MASS
MONTH TO-DATE AVERAGE
PROCESSED WATER MASS - TONNE
MONTH TO-DATE AVERAGE
PROCESSED WATER MASS
YEAR TO-DATE ACCUMULATED
PROCESSED WATER MASS
YEAR TO-DATE ACCUMULATED
PROCESSED WATER MASS - TONNE
YEAR TO-DATE ACCUMULATED
PROCESSED WATER MASS
WATER EXPORT MASS
DAILY WATER EXPORT MASS
DAILY WATER EXPORT MASS TONNE
A daily processed water mass that is measured in (metric) tonne.
A processed water mass that is the daily (24 hour) mass of water
that has been processed in the water cleaning system at a given
date.
A processed water mass that is the accumulated mass of water that
has been processed in the water cleaning system to-date in
reporting month.
A month to-date accumulated processed water mass that is
measured in (metric) tonne.
A processed water mass that is the accumulated mass of water that
has been processed in the water cleaning system to-date in
reporting month.
A processed water mass that is the average mass of water that has
been processed in the water cleaning system per day to-date in
reporting month.
A month to-date average processed water mass that is measured in
(metric) tonne.
A processed water mass that is the average mass of water that has
been processed in the water cleaning system per day to-date in
reporting month.
A processed water mass that is the accumulated mass of water that
has been processed in the water cleaning sytem to-date in reporting
year.
A year to-date accumulated processed water mass that is
measured in (metric) tonne.
A processed water mass that is the accumulated mass of water that
has been processed in the water cleaning sytem to-date in reporting
year.
A water mass that is the mass of a quantity water that is exported
from an installation.
A water export mass that is the daily (24 hour) produced mass of
water at a given date.
A daily water export mass that is measured in (metric) tonne.
DAILY WATER EXPORT MASS
MONTH TO-DATE ACCUMULATED
WATER EXPORT MASS
MONTH TO-DATE ACCUMULATED
WATER EXPORT MASS - TONNE
MONTH TO-DATE ACCUMULATED
WATER EXPORT MASS
MONTH TO-DATE AVERAGE WATER
EXPORT MASS
MONTH TO-DATE AVERAGE WATER
EXPORT MASS - TONNE
MONTH TO-DATE AVERAGE WATER
EXPORT MASS
YEAR TO-DATE ACCUMULATED
WATER EXPORT MASS
YEAR TO-DATE ACCUMULATED
WATER EXPORT MASS - TONNE
YEAR TO-DATE ACCUMULATED
WATER EXPORT MASS
A water export mass that is the daily (24 hour) produced mass of
water at a given date.
A water export mass that is the accumulated mass of water
produced to-date in reporting month.
A month to-date accumulated water export mass that is measured
in (metric) tonne.
A water export mass that is the accumulated mass of water
produced to-date in reporting month.
A water export mass that is the average mass export of water per
day to-date in reporting month.
A month to-date average water export mass that is measured in
(metric) tonne.
A water export mass that is the average mass export of water per
day to-date in reporting month.
A water export mass that is the accumulated mass of water
exported to-date in reporting year.
A year to-date accumulated water export mass that is measured in
(metric) tonne.
A water export mass that is the accumulated mass of water
exported to-date in reporting year.
A-24
Appendix 2 XML d
Appendix 2 – XML document example
<?xml version="1.0" encoding="UTF-8"?>
<witsml:WITSMLComposite version="1.3.1.0" xmlns:witsml="http://www.witsml.org/schemas/Proposed/Combined/131a">
<witsml:documentInfo>
<witsml:DocumentName>RUBIN A Daily Production and Activity Report</witsml:DocumentName>
<witsml:DocumentAlias>Daily Production and Activity Report</witsml:DocumentAlias>
<witsml:DocumentAlias>Daily Production Report</witsml:DocumentAlias>
<witsml:DocumentAlias>Daily Production and Operation Report</witsml:DocumentAlias>
<witsml:DocumentAlias>Daily Activity Report</witsml:DocumentAlias>
<witsml:DocumentDate>2006-04-19T00:00:00</witsml:DocumentDate>
<witsml:FileCreationInformation>
<witsml:FileCreationDate>2006-04-19T09:27:48</witsml:FileCreationDate>
<witsml:SoftwareName>Energy Components - Prosty RUBIN</witsml:SoftwareName>
<witsml:FileCreator>Prosty RUBIN</witsml:FileCreator>
<witsml:Comment>File created by : Prosty RUBIN</witsml:Comment>
</witsml:FileCreationInformation>
<witsml:SecurityInformation>
<witsml:Class>Partner confidential</witsml:Class>
<witsml:System>License partners</witsml:System>
<witsml:EndDate>2015-04-19T00:00:00</witsml:EndDate>
<witsml:Comment>Valid for partners only</witsml:Comment>
</witsml:SecurityInformation>
<witsml:AuditTrail>
<witsml:Event>
<witsml:EventDate>2006-04-19T06:57:43</witsml:EventDate>
<witsml:ResponsibleParty>Ole Mann</witsml:ResponsibleParty>
<witsml:Comment>Daily approval of data on facility A</witsml:Comment>
</witsml:Event>
<witsml:Event>
<witsml:EventDate>2006-04-19T09:14:46</witsml:EventDate>
<witsml:ResponsibleParty>Ole Mann</witsml:ResponsibleParty>
<witsml:Comment>Daily approval of data on all facilities</witsml:Comment>
</witsml:Event>
<witsml:Event>
<witsml:EventDate>2006-04-19T21:37:15</witsml:EventDate>
<witsml:ResponsibleParty>Ella Kvinne</witsml:ResponsibleParty>
<witsml:Comment>Daily approval of data on facility B and C</witsml:Comment>
</witsml:Event>
</witsml:AuditTrail>
<witsml:Owner>RUBIN A</witsml:Owner>
</witsml:documentInfo>
<witsml:productionOperations>
<witsml:productionOperation uid="14061996">
<witsml:name>RUB-K</witsml:name>
<witsml:installation kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:installation>
<witsml:contextFacility kind="field" namingSystem="EnergyComponents">RUBIN</witsml:contextFacility>
<witsml:kind>DDR</witsml:kind>
<witsml:periodKind>day</witsml:periodKind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:operator>
<witsml:name>Norsk Olje AS</witsml:name>
<witsml:role>Platformsjef</witsml:role>
<witsml:role>Regular user</witsml:role>
<witsml:role>Full access to all pictures</witsml:role>
<witsml:personName>
<witsml:first>Schema owner</witsml:first>
<witsml:last>RUBIN</witsml:last>
</witsml:personName>
</witsml:operator>
<witsml:title>Daily Production and Activity Report</witsml:title>
<witsml:geographicContext>
<witsml:country>Norway</witsml:country>
<witsml:field>RUBIN</witsml:field>
</witsml:geographicContext>
<witsml:issueDate>2006-04-19</witsml:issueDate>
<witsml:issuedBy>
<witsml:name>Ole Mann</witsml:name>
<witsml:role>Driftsleder</witsml:role>
<witsml:role>Platformsjef</witsml:role>
<witsml:personName>
<witsml:first>Ole</witsml:first>
A-25
Appendix 2 XML d
<witsml:last>Mann</witsml:last>
</witsml:personName>
</witsml:issuedBy>
<witsml:approvalDate>2006-04-19</witsml:approvalDate>
<witsml:approver>
<witsml:name>Ole Mann</witsml:name>
<witsml:role>Operasjonsleder Land</witsml:role>
<witsml:role>Platformsjef</witsml:role>
<witsml:role>Driftsleder</witsml:role>
<witsml:role>Read-only access to pictures</witsml:role>
<witsml:role>Regular user</witsml:role>
<witsml:personName>
<witsml:first>Ole</witsml:first>
<witsml:last>Mann</witsml:last>
</witsml:personName>
</witsml:approver>
<witsml:installationReport>
<witsml:installation kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:installation>
<witsml:bedsAvailable>16</witsml:bedsAvailable>
<witsml:crewCount type="other crew">1</witsml:crewCount>
<witsml:crewCount type="own other crew">3</witsml:crewCount>
<witsml:crewCount type="contractor crew">4</witsml:crewCount>
<witsml:crewCount type="personnel on board">18</witsml:crewCount>
<witsml:crewCount type="own crew">7</witsml:crewCount>
<witsml:operationalHSE>
<witsml:IncidentCount>0</witsml:IncidentCount>
<witsml:alarmCount>0</witsml:alarmCount>
<witsml:safety>
<witsml:safetyCount period="day" type="sick on board">0</witsml:safetyCount>
<witsml:safetyCount period="day" type="near miss">0</witsml:safetyCount>
<witsml:safetyCount period="day" type="first aid">0</witsml:safetyCount>
<witsml:safetyCount period="day" type="safety meeting">0</witsml:safetyCount>
<witsml:safetyCount period="day" type="sent ashore">0</witsml:safetyCount>
</witsml:safety>
<witsml:weather>
<witsml:dTim>2006-04-19T00:00:00</witsml:dTim>
<witsml:barometricPressure uom="atm">0.0</witsml:barometricPressure>
<witsml:tempSurfaceMn uom="degC">14.0</witsml:tempSurfaceMn>
<witsml:visibility uom="m">0.0</witsml:visibility>
<witsml:htWave uom="m">0.0</witsml:htWave>
<witsml:significantWave uom="m">0.0</witsml:significantWave>
<witsml:maxWave uom="m">0.0</witsml:maxWave>
<witsml:aziWind uom="c">0.0</witsml:aziWind>
<witsml:velWind uom="m/s">0.0</witsml:velWind>
<witsml:amtPrecip uom="m">0.0</witsml:amtPrecip>
</witsml:weather>
</witsml:operationalHSE>
<witsml:productionActivity>
<witsml:lostProduction>
<witsml:volumeAndReason reasonLost="planned maint turnaround" uom="m3">0.0</witsml:volumeAndReason>
<witsml:volumeAndReason reasonLost="topside equipment failure-maint" uom="m3">0.0</witsml:volumeAndReason>
</witsml:lostProduction>
<witsml:shutdown>
<witsml:installation kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:installation>
<witsml:description>FV for produksjonsanlegg</witsml:description>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:59:00</witsml:dTimEnd>
<witsml:volumetricDownTime uom="h">24.0</witsml:volumetricDownTime>
<witsml:activity>
<witsml:who>Tom Haldorsen</witsml:who>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:59:00</witsml:dTimEnd>
<witsml:comment>K-101 &amp; G-101 stengt p.g.a inepskasjon i K-101. Lav injeksjon</witsml:comment>
</witsml:activity>
</witsml:shutdown>
<witsml:shutdown>
<witsml:installation kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:installation>
<witsml:description>Utstyrsfeil og KV</witsml:description>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:59:00</witsml:dTimEnd>
<witsml:volumetricDownTime uom="h">24.0</witsml:volumetricDownTime>
<witsml:activity>
<witsml:who>Anne Kvinne</witsml:who>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:59:00</witsml:dTimEnd>
<witsml:comment>F-2 H stengt p.g.a lekasje</witsml:comment>
A-26
Appendix 2 XML d
</witsml:activity>
</witsml:shutdown>
<witsml:marineOperation>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:standbyVessel>Stril Poseidon</witsml:standbyVessel>
</witsml:marineOperation>
<witsml:operationalComment>
<witsml:type>maintenance</witsml:type>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:comment>Installasjonsprosjekter: Trace-pack tubing, sveising av stag radarmast og installasjon av metanol resonatorer.
Overflatebehandling ihht malingsprogram for 2005. Tilbakestilt brannpumper i akterskipet. KV 21PA500B, olje til lager
pumpe.</witsml:comment>
</witsml:operationalComment>
<witsml:operationalComment>
<witsml:type>production</witsml:type>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:comment>Kl 23.30; Startet å trykksette K-102 og G-101. Redusert injeksjon grunnet redusert tilgang på
injeksjonsbrønner(inspeksjon av K-101). Jettet Test Separator. Kjørt sandrensepakken.</witsml:comment>
</witsml:operationalComment>
</witsml:productionActivity>
</witsml:installationReport>
</witsml:productionOperation>
</witsml:productionOperations>
<witsml:productVolumes>
<witsml:productVolume uid="14061996">
<witsml:name>RUB-K</witsml:name>
<witsml:installation kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:installation>
<witsml:contextFacility kind="field" namingSystem="EnergyComponents">RUBIN</witsml:contextFacility>
<witsml:kind>DDR</witsml:kind>
<witsml:periodKind>day</witsml:periodKind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:operator>
<witsml:name>Statoil ASA</witsml:name>
<witsml:role>Regular user</witsml:role>
<witsml:role>Platformsjef</witsml:role>
<witsml:role>Full access to all pictures</witsml:role>
<witsml:personName>
<witsml:first>Schema owner</witsml:first>
<witsml:last>RUBIN</witsml:last>
</witsml:personName>
</witsml:operator>
<witsml:title>Daily Production and Activity Report</witsml:title>
<witsml:geographicContext>
<witsml:country>Norway</witsml:country>
<witsml:field>RUBIN</witsml:field>
</witsml:geographicContext>
<witsml:issueDate>2006-04-19</witsml:issueDate>
<witsml:issuedBy>
<witsml:name>Ole Mann</witsml:name>
<witsml:role>Driftsleder</witsml:role>
<witsml:role>Platformsjef</witsml:role>
<witsml:personName>
<witsml:first>Ole</witsml:first>
<witsml:last>Mann</witsml:last>
</witsml:personName>
</witsml:issuedBy>
<witsml:approvalDate>2006-04-19</witsml:approvalDate>
<witsml:approver>
<witsml:name>Ole Mann</witsml:name>
<witsml:role>Read-only access to pictures</witsml:role>
<witsml:role>Driftsleder</witsml:role>
<witsml:role>Regular user</witsml:role>
<witsml:role>Operasjonsleder Land</witsml:role>
<witsml:role>Platformsjef</witsml:role>
<witsml:personName>
<witsml:first>Ole</witsml:first>
<witsml:last>Mann</witsml:last>
</witsml:personName>
</witsml:approver>
<witsml:productFlowModel>RUBIN</witsml:productFlowModel>
<witsml:standardTempPres>15 degC 1 atm</witsml:standardTempPres>
<witsml:facility>
A-27
Appendix 2 XML d
<witsml:name kind="template" namingSystem="EnergyComponents">S</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_S</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_S_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_S_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">904.62261</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_S_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">77.94442405779852</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_S_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">8889197.39464</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-R-4_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-R-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent2>
<witsml:unit>RUB-K_R-4H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-R-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_R-4H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>R-4H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">48.33822</witsml:temp>
<witsml:pres uom="bar">410.78869</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_R-4H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-11.73202</witsml:presDiff>
<witsml:tempDiff uom="degC">-0.1944</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-S-4</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">S-102</witsml:facilityParent2>
<witsml:unit>RUB-K_S-4H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
A-28
Appendix 2 XML d
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_S-4H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_S-4H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">1099.9217140048115</witsml:gor>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_S-4H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">4.399999517089311</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">29.43255486370842</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_S-4H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">188388.07895</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_S-4H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">639.48922</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-09-14T22:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: S-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-I-4_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-I-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent2>
<witsml:unit>RUB-K_I-4H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-I-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I-4H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>I-4H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/11-F-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">F-101</witsml:facilityParent2>
<witsml:unit>RUB-K_F-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
A-29
Appendix 2 XML d
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_F-2H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_F-2H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">0.0</witsml:gor>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_F-2H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_F-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_F-2H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">0.0</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-07-05T12:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: F-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-S-3</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">S-101</witsml:facilityParent2>
<witsml:unit>RUB-K_S-3H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_S-3H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_S-3H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">1089.737245157638</witsml:gor>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_S-3H_water</witsml:name>
<witsml:componentContent>
A-30
Appendix 2 XML d
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">5.299999689552493</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">24.88385664459132</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_S-3H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">224522.13418</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_S-3H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">444.6229</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-09-14T22:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: S-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-R-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-R-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent2>
<witsml:unit>RUB-K_R-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-R-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_R-2H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>R-2H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/11-G-4</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent1>
<witsml:unit>RUB-K_G-4H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_G-4H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_G-4H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_G-4H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
A-31
Appendix 2 XML d
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-28T03:30:00</witsml:dTimStart>
<witsml:dTimEnd>2005-10-31T15:30:00</witsml:dTimEnd>
<witsml:comment>Flowline connection: G-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/11-G-1_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-G-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent2>
<witsml:unit>RUB-K_G-1H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-G-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_G-1H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>G-1H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">7.7645</witsml:temp>
<witsml:pres uom="bar">86.72828</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_G-1H_portdiff</witsml:port>
<witsml:presDiff uom="bar">0.39313</witsml:presDiff>
<witsml:tempDiff uom="degC">-0.41784</witsml:tempDiff>
<witsml:chokeRelative uom="%">10.24662</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-S-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-S-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent2>
<witsml:unit>RUB-K_S-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-S-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S-2H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>S-2H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/11-E-3_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-E-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">E</witsml:facilityParent2>
<witsml:unit>RUB-K_E-3H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-E-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_E-3H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>E-3H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">G-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_G-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_G-101_injection</witsml:name>
A-32
Appendix 2 XML d
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_G-101_injection_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">55.2939</witsml:temp>
<witsml:pres uom="bar">438.30432</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_G-101_injection_portdiff</witsml:port>
<witsml:presDiff uom="bar">-389.22972</witsml:presDiff>
<witsml:tempDiff uom="degC">-45.57935</witsml:tempDiff>
<witsml:chokeRelative uom="%">32.4829</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_G-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: K-1H, K-2H, K-3H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-K-1_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-K-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent2>
<witsml:unit>RUB-K_K-1H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-K-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_K-1H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>K-1H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/11-G-3</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent1>
<witsml:unit>RUB-K_G-3H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_G-3H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_G-3H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_G-3H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2004-10-25T19:00:00</witsml:dTimStart>
<witsml:dTimEnd>2005-10-28T04:00:00</witsml:dTimEnd>
<witsml:comment>Flowline connection: G-101</witsml:comment>
A-33
Appendix 2 XML d
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-I-3_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-I-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent2>
<witsml:unit>RUB-K_I-3H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-I-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I-3H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>I-3H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-P-1_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-P-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent2>
<witsml:unit>RUB-K_P-1H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-P-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P-1H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>P-1H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:name>
<witsml:unit>RUB-K</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:downtimeReason>
<witsml:who>Tom Haldorsen</witsml:who>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:59:00</witsml:dTimEnd>
<witsml:comment>K-101 &amp; G-101 stengt p.g.a inepskasjon i K-101. Lav injeksjon</witsml:comment>
</witsml:downtimeReason>
<witsml:downtimeReason>
<witsml:who>Anne-Kristine Stolz</witsml:who>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:59:00</witsml:dTimEnd>
<witsml:comment>F-2 H stengt p.g.a lekasje</witsml:comment>
</witsml:downtimeReason>
<witsml:flow>
<witsml:name>RUB-K_overboard</witsml:name>
<witsml:kind>overboard</witsml:kind>
<witsml:port>RUB-K_overboard_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>water - discharge</witsml:kind>
<witsml:name>RUB-K_water - discharge</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">563.0</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">8441.3</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">703.441667</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-K_export</witsml:name>
A-34
Appendix 2 XML d
<witsml:kind>export</witsml:kind>
<witsml:port>RUB-K_export_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil</witsml:kind>
<witsml:name>RUB-K_oil</witsml:name>
<witsml:bsw uom="%">0.0</witsml:bsw>
<witsml:bswPrevious uom="%">0.0</witsml:bswPrevious>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.95</witsml:densityStd>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1.671276261719E7</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3326063.551433</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1243118.5</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_oil - net</witsml:name>
<witsml:bsw uom="%">0.0</witsml:bsw>
<witsml:bswPrevious uom="%">0.0</witsml:bswPrevious>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">134504.99206</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-K_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">1602.680094420474</witsml:gor>
<witsml:gorMTD uom="sm3/sm3">1601.5343424587743</witsml:gorMTD>
<witsml:product>
<witsml:kind>water - processed</witsml:kind>
<witsml:name>RUB-K_water - processed</witsml:name>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">617.191667</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
A-35
Appendix 2 XML d
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">537.0</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">7406.3</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.95</witsml:densityStd>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3.0396848366687E8</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2.532085503782E7</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2.5330706972239E7</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil</witsml:kind>
<witsml:name>RUB-K_oil</witsml:name>
<witsml:bsw uom="%">0.02</witsml:bsw>
<witsml:bswPrevious uom="%">0.02</witsml:bswPrevious>
<witsml:densityStd uom="kg/m3">793.7</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">15802.23047</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_oil - net</witsml:name>
<witsml:bsw uom="%">0.02</witsml:bsw>
<witsml:bswPrevious uom="%">0.02</witsml:bswPrevious>
<witsml:densityStd uom="kg/m3">793.7</witsml:densityStd>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">15816.52438</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">189798.292555</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">15799.070024</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-K_consume - flare</witsml:name>
<witsml:kind>consume - flare</witsml:kind>
<witsml:port>RUB-K_consume - flare_outlet</witsml:port>
A-36
Appendix 2 XML d
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_gas</witsml:name>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">9713.478389</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">116561.74067</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-K_import</witsml:name>
<witsml:kind>import</witsml:kind>
<witsml:port>RUB-K_import_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
</witsml:period>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-K_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_injection_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.95</witsml:densityStd>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2.4155029696526E8</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2.0129191413771667E7</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
A-37
Appendix 2 XML d
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1.961950403782E7</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-K_consume - fuel</witsml:name>
<witsml:kind>consume - fuel</witsml:kind>
<witsml:port>RUB-K_consume - fuel_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.95</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">458232.5</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">5588862.34375</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>daily month to date</witsml:kind>
<witsml:dTimStart>2005-11-01T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">465738.528646</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-K_inventory</witsml:name>
<witsml:kind>inventory</witsml:kind>
<witsml:port>RUB-K_inventory_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volume uom="m3">76854.51563</witsml:volume>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-N-3</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facilityParent2>
<witsml:unit>RUB-K_N-3H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_N-3H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_N-3H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">0.0</witsml:gor>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_N-3H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
A-38
Appendix 2 XML d
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_N-3H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">0.0</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_N-3H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-28T22:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: N-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-R-1</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">R-102</witsml:facilityParent2>
<witsml:unit>RUB-K_R-1H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_R-1H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_R-1H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_R-1H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3973541.53742</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-22T08:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: R-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-L-4</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
A-39
Appendix 2 XML d
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">L-101</witsml:facilityParent2>
<witsml:unit>RUB-K_L-4H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_L-4H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_L-4H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">3110.3341754751013</witsml:gor>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_L-4H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">939.10554</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_L-4H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2920932.05544</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_L-4H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">6.800000195478867</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">68.51843207048489</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-18T08:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: L-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">E-102</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">E</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_E-102</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_E-102_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_E-102_injection_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">55.2939</witsml:temp>
<witsml:pres uom="bar">438.30432</witsml:pres>
<witsml:portDiff>
A-40
Appendix 2 XML d
<witsml:port>RUB-K_E-102_injection_portdiff</witsml:port>
<witsml:presDiff uom="bar">-1.81119</witsml:presDiff>
<witsml:tempDiff uom="degC">-0.22281</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_E-102_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">4508682.82949</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: E-3H, F-4H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-K-3_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-K-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent2>
<witsml:unit>RUB-K_K-3H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-K-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_K-3H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>K-3H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-3.64169</witsml:temp>
<witsml:pres uom="bar">55.80381</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_K-3H_portdiff</witsml:port>
<witsml:presDiff uom="bar">235.65625</witsml:presDiff>
<witsml:tempDiff uom="degC">20.55643</witsml:tempDiff>
<witsml:chokeRelative uom="%">1.903</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="field" namingSystem="EnergyComponents">RUBIN ex STEIN</witsml:name>
<witsml:unit>RUBIN ex STEIN</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:flow>
<witsml:name>RUBIN ex STEIN_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUBIN ex STEIN_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUBIN ex STEIN_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">24787.899594</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUBIN ex STEIN_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">6.793461525903E7</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
A-41
Appendix 2 XML d
<witsml:facility>
<witsml:name kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:name>
<witsml:unit>RUB-L</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:downtimeReason>
<witsml:who>Tom Haldorsen</witsml:who>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:59:00</witsml:dTimEnd>
<witsml:comment>J-101 stengt p.g.a sprekker.</witsml:comment>
</witsml:downtimeReason>
<witsml:flow>
<witsml:name>RUB-L_consume - flare</witsml:name>
<witsml:kind>consume - flare</witsml:kind>
<witsml:port>RUB-L_consume - flare_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-L_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">20943.71645</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-L_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-L_injection_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-L_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">9922321.51563</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-L_export</witsml:name>
<witsml:kind>export</witsml:kind>
<witsml:port>RUB-L_export_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-L_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:sg uom="%">55.69</witsml:sg>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3.737620804178E7</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-L_oil - net</witsml:name>
<witsml:rvp uom="bar">10.4</witsml:rvp>
<witsml:bsw uom="%">0.04</witsml:bsw>
<witsml:bswPrevious uom="%">0.04</witsml:bswPrevious>
<witsml:densityStd uom="kg/m3">755.5</witsml:densityStd>
<witsml:sg uom="%">55.69</witsml:sg>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">68072.76</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
A-42
Appendix 2 XML d
<witsml:flow>
<witsml:name>RUB-L_consume - fuel</witsml:name>
<witsml:kind>consume - fuel</witsml:kind>
<witsml:port>RUB-L_consume - fuel_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-L_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">537405.44735</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-L_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-L_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">4342.379611663114</witsml:gor>
<witsml:gorMTD uom="sm3/sm3">4387.2566037909455</witsml:gorMTD>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-L_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">4.261376022121E7</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-L_oil - net</witsml:name>
<witsml:bsw uom="%">0.0</witsml:bsw>
<witsml:bswPrevious uom="%">0.0</witsml:bswPrevious>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">8988.82957</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-P-3_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-P-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent2>
<witsml:unit>RUB-K_P-3H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-P-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P-3H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>P-3H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-K-1</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">G-101</witsml:facilityParent2>
<witsml:unit>RUB-K_K-1H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_K-1H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
A-43
Appendix 2 XML d
<witsml:port>RUB-K_K-1H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_K-1H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2004-05-04T13:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: G-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-R-1_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-R-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent2>
<witsml:unit>RUB-K_R-1H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-R-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_R-1H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>R-1H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-I-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-I-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent2>
<witsml:unit>RUB-K_I-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-I-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I-2H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>I-2H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">I-102</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_I-102</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_I-102_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_I-102_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.49962</witsml:temp>
<witsml:pres uom="bar">84.604</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_I-102_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">2.174</witsml:presDiff>
<witsml:tempDiff uom="degC">122.21199</witsml:tempDiff>
<witsml:chokeRelative uom="%">72.39024</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_I-102_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
A-44
Appendix 2 XML d
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">40.831063212372804</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_I-102_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1504768.98592</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_I-102_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">607.28101</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: I-1H, I-2H</witsml:comment>
</witsml:comment>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: A</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-L-1_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-L-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent2>
<witsml:unit>RUB-K_L-1H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-L-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L-1H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>L-1H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">149.92386</witsml:temp>
<witsml:pres uom="bar">151.54542</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_L-1H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-4.12173</witsml:presDiff>
<witsml:tempDiff uom="degC">-26.40009</witsml:tempDiff>
<witsml:chokeRelative uom="%">92.40532</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">R-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_R-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_R-101_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_R-101_injection_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">55.2939</witsml:temp>
<witsml:pres uom="bar">438.30432</witsml:pres>
A-45
Appendix 2 XML d
<witsml:portDiff>
<witsml:port>RUB-K_R-101_injection_portdiff</witsml:port>
<witsml:presDiff uom="bar">-4.14846</witsml:presDiff>
<witsml:tempDiff uom="degC">0.44896</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_R-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">7903194.00781</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: R-4H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-K-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">G-101</witsml:facilityParent2>
<witsml:unit>RUB-K_K-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_K-2H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_K-2H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_K-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: G-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">N</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_N</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_N_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_N_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_N_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
A-46
Appendix 2 XML d
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1929424.61444</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_N_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">77.47660007891761</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_N_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1210.35219</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-I-4_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-I-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent2>
<witsml:unit>RUB-K_I-4H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-I-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I-4H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>I-4H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">100.80718</witsml:temp>
<witsml:pres uom="bar">94.63376</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_I-4H_portdiff</witsml:port>
<witsml:presDiff uom="bar">78.13553</witsml:presDiff>
<witsml:tempDiff uom="degC">14.61432</witsml:tempDiff>
<witsml:chokeRelative uom="%">24.55677</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/11-G-3_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-G-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent2>
<witsml:unit>RUB-K_G-3H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-G-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_G-3H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>G-3H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-P-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-P-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent2>
<witsml:unit>RUB-K_P-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-P-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P-2H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
A-47
Appendix 2 XML d
<witsml:port>P-2H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">Q</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_Q</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:flow>
<witsml:name>RUB-K_Q_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_Q_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_Q_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">441415.78766</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_Q_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1402.65661</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_Q_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">14.168249978570039</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-R-2_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-R-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent2>
<witsml:unit>RUB-K_R-2H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-R-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_R-2H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>R-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">46.9626</witsml:temp>
<witsml:pres uom="bar">419.84916</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_R-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-1.66427</witsml:presDiff>
<witsml:tempDiff uom="degC">-2.09893</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-N-2_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-N-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent2>
<witsml:unit>RUB-K_N-2H_wellhead</witsml:unit>
A-48
Appendix 2 XML d
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-N-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_N-2H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>N-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">86.61939</witsml:temp>
<witsml:pres uom="bar">102.345</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_N-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-1.98125</witsml:presDiff>
<witsml:tempDiff uom="degC">6.68303</witsml:tempDiff>
<witsml:chokeRelative uom="%">99.9036</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-R-4</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">R-101</witsml:facilityParent2>
<witsml:unit>RUB-K_R-4H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_R-4H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_R-4H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_R-4H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">7903194.00781</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-06-26T14:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: R-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-P-4_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-P-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent2>
<witsml:unit>RUB-K_P-4H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-P-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P-4H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>P-4H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-P-2_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-P-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent2>
<witsml:unit>RUB-K_P-2H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-P-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P-2H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
A-49
Appendix 2 XML d
<witsml:port>P-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">108.9862</witsml:temp>
<witsml:pres uom="bar">105.56898</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_P-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">4.02197</witsml:presDiff>
<witsml:tempDiff uom="degC">0.75374</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/11-G-3_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-G-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent2>
<witsml:unit>RUB-K_G-3H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-G-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_G-3H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>G-3H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">8.47153</witsml:temp>
<witsml:pres uom="bar">115.66656</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_G-3H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-1.31968</witsml:presDiff>
<witsml:tempDiff uom="degC">-1.74552</witsml:tempDiff>
<witsml:chokeRelative uom="%">14.37332</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-L-2_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-L-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent2>
<witsml:unit>RUB-K_L-2H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-L-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L-2H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>L-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">152.22306</witsml:temp>
<witsml:pres uom="bar">165.26028</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_L-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">3.38953</witsml:presDiff>
<witsml:tempDiff uom="degC">-28.86872</witsml:tempDiff>
<witsml:chokeRelative uom="%">72.10047</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-I-1_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-I-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent2>
<witsml:unit>RUB-K_I-1H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-I-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I-1H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>I-1H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">8.69728</witsml:temp>
<witsml:pres uom="bar">96.2113</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_I-1H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-48.21077</witsml:presDiff>
<witsml:tempDiff uom="degC">0.47786</witsml:tempDiff>
<witsml:chokeRelative uom="%">-0.35602</witsml:chokeRelative>
</witsml:portDiff>
A-50
Appendix 2 XML d
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-R-4_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-R-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent2>
<witsml:unit>RUB-K_R-4H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-R-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_R-4H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>R-4H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">L-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_L-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_L-101_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_L-101_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.48786</witsml:temp>
<witsml:pres uom="bar">86.59949</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_L-101_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">10.56973</witsml:presDiff>
<witsml:tempDiff uom="degC">164.1355</witsml:tempDiff>
<witsml:chokeRelative uom="%">87.13808</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_L-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">5466857.92223</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_L-101_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1918.27288</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_L-101_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">158.31107324686994</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: L-2H, L-4H</witsml:comment>
</witsml:comment>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
A-51
Appendix 2 XML d
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: A</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-K-3</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">G-101</witsml:facilityParent2>
<witsml:unit>RUB-K_K-3H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_K-3H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_K-3H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_K-3H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-02-25T04:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: G-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-S-2_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-S-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent2>
<witsml:unit>RUB-K_S-2H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-S-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S-2H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>S-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">110.84658</witsml:temp>
<witsml:pres uom="bar">99.73783</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_S-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">5.96973</witsml:presDiff>
<witsml:tempDiff uom="degC">6.7045</witsml:tempDiff>
<witsml:chokeRelative uom="%">97.90618</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-K-1_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-K-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent2>
<witsml:unit>RUB-K_K-1H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-K-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_K-1H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>K-1H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">7.7981</witsml:temp>
<witsml:pres uom="bar">54.39974</witsml:pres>
A-52
Appendix 2 XML d
<witsml:portDiff>
<witsml:port>RUB-K_K-1H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-0.50658</witsml:presDiff>
<witsml:tempDiff uom="degC">0.48969</witsml:tempDiff>
<witsml:chokeRelative uom="%">17.66106</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">M-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">M</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:unit>RUB-L_M-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-L_M-101_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-L_M-101_injection_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">53.21159</witsml:temp>
<witsml:pres uom="bar">419.07263</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-L_M-101_injection_portdiff</witsml:port>
<witsml:presDiff uom="bar">1.34418</witsml:presDiff>
<witsml:tempDiff uom="degC">1.80735</witsml:tempDiff>
<witsml:chokeRelative uom="%">81.30752</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-L_M-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">9922321.51563</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: M-1H, M-2H, M-3H, M-4H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-N-1_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-N-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent2>
<witsml:unit>RUB-K_N-1H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-N-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_N-1H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>N-1H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">8.20249</witsml:temp>
<witsml:pres uom="bar">103.90721</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_N-1H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-1.49031</witsml:presDiff>
<witsml:tempDiff uom="degC">0.29576</witsml:tempDiff>
<witsml:chokeRelative uom="%">0.79883</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-N-4_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-N-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent2>
<witsml:unit>RUB-K_N-4H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-N-4</witsml:contextFacility>
A-53
Appendix 2 XML d
<witsml:flow>
<witsml:name>RUB-K_N-4H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>N-4H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-N-3_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-N-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent2>
<witsml:unit>RUB-K_N-3H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-N-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_N-3H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>N-3H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="platform" namingSystem="EnergyComponents">RUB-L incl STEIN</witsml:name>
<witsml:unit>RUB-L incl STEIN</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:flow>
<witsml:name>RUB-L incl STEIN_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-L incl STEIN_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil</witsml:kind>
<witsml:name>RUB-L incl STEIN_oil</witsml:name>
<witsml:bsw uom="%">0.0</witsml:bsw>
<witsml:bswPrevious uom="%">0.0</witsml:bswPrevious>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">11169.66211</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-L incl STEIN_oil - net</witsml:name>
<witsml:bsw uom="%">0.0</witsml:bsw>
<witsml:bswPrevious uom="%">0.0</witsml:bswPrevious>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">11169.66211</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-L incl STEIN_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">4.850291301563E7</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-N-1</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facilityParent2>
<witsml:unit>RUB-K_N-1H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
A-54
Appendix 2 XML d
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_N-1H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_N-1H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">0.0</witsml:gor>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_N-1H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_N-1H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">0.0</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_N-1H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-29T06:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: N-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">P-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_P-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_P-101_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_P-101_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.4995</witsml:temp>
<witsml:pres uom="bar">61.25475</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_P-101_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">2.3356</witsml:presDiff>
<witsml:tempDiff uom="degC">143.18641</witsml:tempDiff>
<witsml:chokeRelative uom="%">65.53393</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
A-55
Appendix 2 XML d
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_P-101_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1549.44486</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_P-101_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">86.61483787855676</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_P-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3007526.75691</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: P-1H, P-2H</witsml:comment>
</witsml:comment>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: TEST</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-Q-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">Q</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">F-102</witsml:facilityParent2>
<witsml:unit>RUB-K_Q-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_Q-2H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_Q-2H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">314.6998235441246</witsml:gor>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_Q-2H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">1.0000000973150864</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">14.168249978570039</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_Q-2H_oil - net</witsml:name>
A-56
Appendix 2 XML d
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1402.65661</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_Q-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">441415.78766</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-08-15T00:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: F-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-L-3</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:unit>RUB-K_L-3H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_L-3H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_L-3H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">3415.868002786236</witsml:gor>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_L-3H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">876.79578</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_L-3H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">5.800000342819698</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">53.98530618991603</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_L-3H_gas</witsml:name>
<witsml:componentContent>
A-57
Appendix 2 XML d
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2995018.64988</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-14T10:30:00</witsml:dTimStart>
<witsml:dTimEnd>2005-10-17T02:30:00</witsml:dTimEnd>
<witsml:comment>Flowline connection: L-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">S-102</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_S-102</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_S-102_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_S-102_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.5</witsml:temp>
<witsml:pres uom="bar">60.7835</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_S-102_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">1.93397</witsml:presDiff>
<witsml:tempDiff uom="degC">135.47824</witsml:tempDiff>
<witsml:chokeRelative uom="%">65.2204</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_S-102_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1926.97918</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_S-102_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">164.58343758092838</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_S-102_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2414555.03309</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: S-2H, S-4H</witsml:comment>
</witsml:comment>
<witsml:comment>
A-58
Appendix 2 XML d
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: TEST</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-S-4_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-S-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent2>
<witsml:unit>RUB-K_S-4H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-S-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S-4H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>S-4H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-S-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">S-102</witsml:facilityParent2>
<witsml:unit>RUB-K_S-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_S-2H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_S-2H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">1329.0720761348693</witsml:gor>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_S-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1711166.95414</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_S-2H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">9.500000186911832</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">135.15088271721996</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_S-2H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1287.48996</witsml:volumeStd>
</witsml:period>
</witsml:product>
A-59
Appendix 2 XML d
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-09-15T16:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: S-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-I-2_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-I-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent2>
<witsml:unit>RUB-K_I-2H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-I-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I-2H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>I-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">110.01334</witsml:temp>
<witsml:pres uom="bar">96.04606</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_I-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">3.41395</witsml:presDiff>
<witsml:tempDiff uom="degC">0.17024</witsml:tempDiff>
<witsml:chokeRelative uom="%">91.72377</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="field" namingSystem="EnergyComponents">RUBIN</witsml:name>
<witsml:unit>RUBIN</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:flow>
<witsml:name>RUBIN_import</witsml:name>
<witsml:kind>import</witsml:kind>
<witsml:port>RUBIN_import_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUBIN_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUBIN_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUBIN_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUBIN_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">26968.732134</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUBIN_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">7.382376805345E7</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
A-60
Appendix 2 XML d
<witsml:flow>
<witsml:name>RUBIN_consume - flare</witsml:name>
<witsml:kind>consume - flare</witsml:kind>
<witsml:port>RUBIN_consume - flare_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUBIN_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">23521.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUBIN_export</witsml:name>
<witsml:kind>export</witsml:kind>
<witsml:port>RUBIN_export_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUBIN_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>06:00</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1.2212089E7</witsml:volumeStd>
</witsml:period>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1.2216188E7</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>NGL - component in gas</witsml:kind>
<witsml:name>RUBIN_NGL - component in gas</witsml:name>
<witsml:period>
<witsml:kind>06:00</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:mass uom="t">6621.615648092895</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUBIN_consume - fuel</witsml:name>
<witsml:kind>consume - fuel</witsml:kind>
<witsml:port>RUBIN_consume - fuel_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUBIN_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.95</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1042233.5</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">E</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_E</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_E_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
A-61
Appendix 2 XML d
<witsml:port>RUB-K_E_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_E_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1767972.23939</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-L-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-L-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent2>
<witsml:unit>RUB-K_L-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-L-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L-2H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>L-2H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/11-G-1_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-G-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent2>
<witsml:unit>RUB-K_G-1H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-G-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_G-1H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>G-1H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">I-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_I-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_I-101_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_I-101_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.49888</witsml:temp>
<witsml:pres uom="bar">84.32143</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_I-101_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">3.49654</witsml:presDiff>
<witsml:tempDiff uom="degC">123.46493</witsml:tempDiff>
<witsml:chokeRelative uom="%">21.89379</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_I-101_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">38.23044788086043</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
A-62
Appendix 2 XML d
<witsml:name>RUB-K_I-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">410111.21078</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_I-101_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">120.0012</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: A</witsml:comment>
</witsml:comment>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: I-3H, I-4H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/11-F-4_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-F-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent2>
<witsml:unit>RUB-K_F-4H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-F-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_F-4H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>F-4H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/11-G-4_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-G-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent2>
<witsml:unit>RUB-K_G-4H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-G-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_G-4H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>G-4H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">7.97342</witsml:temp>
<witsml:pres uom="bar">50.17415</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_G-4H_portdiff</witsml:port>
<witsml:presDiff uom="bar">0.78021</witsml:presDiff>
<witsml:tempDiff uom="degC">0.00949</witsml:tempDiff>
<witsml:chokeRelative uom="%">9.49141</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-S-1</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">S-101</witsml:facilityParent2>
<witsml:unit>RUB-K_S-1H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
A-63
Appendix 2 XML d
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_S-1H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_S-1H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">2546.115094925281</witsml:gor>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_S-1H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">8070120.22737</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_S-1H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">6.500000050965336</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">12.5222298322788</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_S-1H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">613.05053</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-09-13T17:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: S-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">F</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_F</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_F_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_F_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_F_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
A-64
Appendix 2 XML d
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_F_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_F_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>RUB-K_F_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_F_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_F_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">8880710.5901</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-I-1</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">I-102</witsml:facilityParent2>
<witsml:unit>RUB-K_I-1H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_I-1H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_I-1H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">0.0</witsml:gor>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_I-1H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">0.0</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_I-1H_gas</witsml:name>
A-65
Appendix 2 XML d
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_I-1H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-09-11T03:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: I-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-Q-2_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-Q-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">Q</witsml:facilityParent2>
<witsml:unit>RUB-K_Q-2H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-Q-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_Q-2H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>Q-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">102.75365</witsml:temp>
<witsml:pres uom="bar">90.51803</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_Q-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">2.0819</witsml:presDiff>
<witsml:tempDiff uom="degC">1.9337</witsml:tempDiff>
<witsml:chokeRelative uom="%">56.944</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/11-F-4</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent1>
<witsml:unit>RUB-K_F-4H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_F-4H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_F-4H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_F-4H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
A-66
Appendix 2 XML d
<witsml:volumeStd uom="m3">2740710.5901</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-04-10T09:00:00</witsml:dTimStart>
<witsml:dTimEnd>2005-04-10T11:00:00</witsml:dTimEnd>
<witsml:comment>Flowline connection: F-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-I-4</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">I-101</witsml:facilityParent2>
<witsml:unit>RUB-K_I-4H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_I-4H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_I-4H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">4890.578172463797</witsml:gor>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_I-4H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">49.97559</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_I-4H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">22.50000305451329</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">14.509044799602243</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_I-4H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">244409.52961</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-21T02:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: I-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/11-G-4_bottomhole</witsml:name>
A-67
Appendix 2 XML d
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-G-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent2>
<witsml:unit>RUB-K_G-4H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-G-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_G-4H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>G-4H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/11-E-3_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-E-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">E</witsml:facilityParent2>
<witsml:unit>RUB-K_E-3H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-E-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_E-3H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>E-3H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">44.22327</witsml:temp>
<witsml:pres uom="bar">438.40506</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_E-3H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-0.5383</witsml:presDiff>
<witsml:tempDiff uom="degC">-0.38221</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">S-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_S-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_S-101_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_S-101_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.49944</witsml:temp>
<witsml:pres uom="bar">85.96887</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_S-101_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">2.66349</witsml:presDiff>
<witsml:tempDiff uom="degC">138.29829</witsml:tempDiff>
<witsml:chokeRelative uom="%">82.32861</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_S-101_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">81.40608647687012</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_S-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2554642.36155</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
A-68
Appendix 2 XML d
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_S-101_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1257.67343</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: B</witsml:comment>
</witsml:comment>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: S-1H, S-3H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-I-1_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-I-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent2>
<witsml:unit>RUB-K_I-1H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-I-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I-1H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>I-1H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-R-1_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-R-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent2>
<witsml:unit>RUB-K_R-1H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-R-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_R-1H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>R-1H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">47.33818</witsml:temp>
<witsml:pres uom="bar">419.31221</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_R-1H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-1.60088</witsml:presDiff>
<witsml:tempDiff uom="degC">-1.23097</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-P-1</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">P-101</witsml:facilityParent2>
<witsml:unit>RUB-K_P-1H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_P-1H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_P-1H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">1527.6690437531838</witsml:gor>
<witsml:product>
A-69
Appendix 2 XML d
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_P-1H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">792068.96225</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_P-1H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">518.48204</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_P-1H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">9.200000600205094</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">52.533426329585815</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-18T09:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: P-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">F-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_F-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_F-101_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_F-101_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.48336</witsml:temp>
<witsml:pres uom="bar">6.66454</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_F-101_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">0.49897</witsml:presDiff>
<witsml:tempDiff uom="degC">76.12279</witsml:tempDiff>
<witsml:chokeRelative uom="%">-0.68646</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_F-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
A-70
Appendix 2 XML d
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_F-101_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_F-101_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: F-2H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-P-3_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-P-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent2>
<witsml:unit>RUB-K_P-3H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-P-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P-3H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>P-3H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">109.82708</witsml:temp>
<witsml:pres uom="bar">140.75975</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_P-3H_portdiff</witsml:port>
<witsml:presDiff uom="bar">8.54868</witsml:presDiff>
<witsml:tempDiff uom="degC">1.40203</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">K</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_K</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:flow>
<witsml:name>RUB-K_K_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_K_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_K_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-K-2_wellhead</witsml:name>
A-71
Appendix 2 XML d
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-K-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent2>
<witsml:unit>RUB-K_K-2H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-K-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_K-2H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>K-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">7.05198</witsml:temp>
<witsml:pres uom="bar">54.69261</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_K-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">0.03484</witsml:presDiff>
<witsml:tempDiff uom="degC">-0.01945</witsml:tempDiff>
<witsml:chokeRelative uom="%">16.79124</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-L-3_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-L-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent2>
<witsml:unit>RUB-K_L-3H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-L-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L-3H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>L-3H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">120.91948</witsml:temp>
<witsml:pres uom="bar">148.53469</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_L-3H_portdiff</witsml:port>
<witsml:presDiff uom="bar">5.06914</witsml:presDiff>
<witsml:tempDiff uom="degC">0.55448</witsml:tempDiff>
<witsml:chokeRelative uom="%">97.62561</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-S-1_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-S-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent2>
<witsml:unit>RUB-K_S-1H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-S-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S-1H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>S-1H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">112.99914</witsml:temp>
<witsml:pres uom="bar">126.43552</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_S-1H_portdiff</witsml:port>
<witsml:presDiff uom="bar">1.80444</witsml:presDiff>
<witsml:tempDiff uom="degC">-1.9682</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-I-3_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-I-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent2>
<witsml:unit>RUB-K_I-3H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-I-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I-3H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>I-3H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
A-72
Appendix 2 XML d
<witsml:temp uom="degC">107.01372</witsml:temp>
<witsml:pres uom="bar">96.94862</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_I-3H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-3.9148</witsml:presDiff>
<witsml:tempDiff uom="degC">-4.40478</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">R</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_R</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_R_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_R_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_R_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1.511082120833E7</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-S-1_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-S-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent2>
<witsml:unit>RUB-K_S-1H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-S-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S-1H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>S-1H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/11-E-3</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">E</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">E-102</witsml:facilityParent2>
<witsml:unit>RUB-K_E-3H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_E-3H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_E-3H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_E-3H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1767972.23939</witsml:volumeStd>
</witsml:period>
A-73
Appendix 2 XML d
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2001-06-15T00:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: E-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-N-3_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-N-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent2>
<witsml:unit>RUB-K_N-3H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-N-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_N-3H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>N-3H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">25.34426</witsml:temp>
<witsml:pres uom="bar">1.86587</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_N-3H_portdiff</witsml:port>
<witsml:presDiff uom="bar">102.83049</witsml:presDiff>
<witsml:tempDiff uom="degC">-17.26124</witsml:tempDiff>
<witsml:chokeRelative uom="%">25.53483</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-P-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">P-101</witsml:facilityParent2>
<witsml:unit>RUB-K_P-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_P-2H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_P-2H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">2148.9211363218706</witsml:gor>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_P-2H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">3.1999996375177657</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">34.08141154897094</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_P-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2215457.79466</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_P-2H_oil - net</witsml:name>
A-74
Appendix 2 XML d
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1030.96282</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-18T09:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: P-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-K-3_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-K-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent2>
<witsml:unit>RUB-K_K-3H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-K-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_K-3H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>K-3H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-L-4_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-L-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent2>
<witsml:unit>RUB-K_L-4H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-L-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L-4H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>L-4H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">123.62579</witsml:temp>
<witsml:pres uom="bar">160.24929</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_L-4H_portdiff</witsml:port>
<witsml:presDiff uom="bar">4.57798</witsml:presDiff>
<witsml:tempDiff uom="degC">0.67747</witsml:tempDiff>
<witsml:chokeRelative uom="%">97.47288</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-N-4_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-N-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent2>
<witsml:unit>RUB-K_N-4H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-N-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_N-4H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>N-4H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">126.01417</witsml:temp>
<witsml:pres uom="bar">107.48488</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_N-4H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-4.8175</witsml:presDiff>
<witsml:tempDiff uom="degC">39.86505</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
A-75
Appendix 2 XML d
<witsml:name kind="flowline" namingSystem="EnergyComponents">L-102</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_L-102</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_L-102_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_L-102_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.47213</witsml:temp>
<witsml:pres uom="bar">87.3902</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_L-102_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">9.08181</witsml:presDiff>
<witsml:tempDiff uom="degC">165.39238</witsml:tempDiff>
<witsml:chokeRelative uom="%">90.74075</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_L-102_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">123.2588191424556</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_L-102_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1529.12138</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_L-102_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">4461257.68954</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: L-1H, L-3H</witsml:comment>
</witsml:comment>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: B</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-Q-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-Q-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">Q</witsml:facilityParent2>
<witsml:unit>RUB-K_Q-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-Q-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_Q-2H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>Q-2H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
A-76
Appendix 2 XML d
<witsml:temp uom="degC">143.23365</witsml:temp>
<witsml:pres uom="bar">240.0693</witsml:pres>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-N-1_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-N-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent2>
<witsml:unit>RUB-K_N-1H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-N-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_N-1H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>N-1H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-P-4</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">P-102</witsml:facilityParent2>
<witsml:unit>RUB-K_P-4H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_P-4H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_P-4H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">0.0</witsml:gor>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_P-4H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_P-4H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_P-4H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">0.0</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
A-77
Appendix 2 XML d
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-18T09:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: P-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-L-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">L-101</witsml:facilityParent2>
<witsml:unit>RUB-K_L-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_L-2H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_L-2H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">2600.0927142749674</witsml:gor>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_L-2H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">8.40000025796744</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">89.79264117638503</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_L-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2545925.86679</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_L-2H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">979.16734</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-17T01:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: L-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-L-1</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:unit>RUB-K_L-1H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
A-78
Appendix 2 XML d
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_L-1H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_L-1H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">2247.710406674213</witsml:gor>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_L-1H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">9.599999737956407</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">69.27351295253956</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_L-1H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">652.3256</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_L-1H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1466239.03966</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-14T10:30:00</witsml:dTimStart>
<witsml:dTimEnd>2005-10-17T02:30:00</witsml:dTimEnd>
<witsml:comment>Flowline connection: L-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-P-1_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-P-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent2>
<witsml:unit>RUB-K_P-1H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-P-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P-1H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>P-1H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">101.17499</witsml:temp>
<witsml:pres uom="bar">104.57402</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_P-1H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-0.31841</witsml:presDiff>
<witsml:tempDiff uom="degC">2.75505</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
A-79
Appendix 2 XML d
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-N-4</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facilityParent2>
<witsml:unit>RUB-K_N-4H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_N-4H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_N-4H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">1884.0232474748618</witsml:gor>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_N-4H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">864.21214</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_N-4H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">6.799999745096913</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">63.054102099109144</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_N-4H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1628195.76251</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-29T05:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: N-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-K-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-K-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent2>
<witsml:unit>RUB-K_K-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-K-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_K-2H_bottomhole _injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>K-2H_bottomhole _upstream_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
A-80
Appendix 2 XML d
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-I-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">I-102</witsml:facilityParent2>
<witsml:unit>RUB-K_I-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_I-2H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_I-2H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">2477.8792044230067</witsml:gor>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_I-2H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">6.300000401164154</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">40.831063212372804</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_I-2H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">607.28101</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_I-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1504768.98592</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-21T00:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: I-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-L-4_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-L-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent2>
<witsml:unit>RUB-K_L-4H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-L-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L-4H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>L-4H_bottomhole _upstream_outlet</witsml:port>
A-81
Appendix 2 XML d
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-R-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">R-102</witsml:facilityParent2>
<witsml:unit>RUB-K_R-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_R-2H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_R-2H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_R-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3234085.6631</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-08-13T22:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T08:00:00</witsml:dTimEnd>
<witsml:comment>Flowline connection: R-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">G</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_G</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_G_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_G_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_G_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">K-101</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:unit>RUB-L_K-101</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-L_K-101_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-L_K-101_injection_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
A-82
Appendix 2 XML d
<witsml:temp uom="degC">6.35043</witsml:temp>
<witsml:pres uom="bar">-0.33368</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-L_K-101_injection_portdiff</witsml:port>
<witsml:presDiff uom="bar">420.75049</witsml:presDiff>
<witsml:tempDiff uom="degC">48.66851</witsml:tempDiff>
<witsml:chokeRelative uom="%">9.89941</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-L_K-101_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">P</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_P</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_P_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_P_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">132.1506381778547</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_P_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3130.18776</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_P_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">7000082.07748</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-N-2</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facilityParent2>
<witsml:unit>RUB-K_N-2H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
A-83
Appendix 2 XML d
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_N-2H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_N-2H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">870.2513677050662</witsml:gor>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_N-2H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">301228.85193</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_N-2H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">346.14005</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_N-2H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">3.9999989074339832</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">14.422497979808469</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-29T04:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: N-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/11-F-2_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-F-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent2>
<witsml:unit>RUB-K_F-2H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-F-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_F-2H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>F-2H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">8.24288</witsml:temp>
<witsml:pres uom="bar">41.15361</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_F-2H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-0.24813</witsml:presDiff>
<witsml:tempDiff uom="degC">-0.4046</witsml:tempDiff>
<witsml:chokeRelative uom="%">0.36715</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
A-84
Appendix 2 XML d
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-S-4_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-S-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent2>
<witsml:unit>RUB-K_S-4H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-S-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S-4H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>S-4H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">101.88182</witsml:temp>
<witsml:pres uom="bar">99.91708</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_S-4H_portdiff</witsml:port>
<witsml:presDiff uom="bar">0.67871</witsml:presDiff>
<witsml:tempDiff uom="degC">0.87813</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">F-102</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_F-102</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_F-102_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_F-102_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.5</witsml:temp>
<witsml:pres uom="bar">66.69165</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_F-102_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">-6.89934</witsml:presDiff>
<witsml:tempDiff uom="degC">96.17105</witsml:tempDiff>
<witsml:chokeRelative uom="%">29.57237</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_F-102_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">14.168249978570039</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_F-102_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">441415.78766</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_F-102_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1402.65661</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
A-85
Appendix 2 XML d
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: TEST</witsml:comment>
</witsml:comment>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: Q-2H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">I</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_I</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_I_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_I_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_I_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">836.28221</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_I_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">79.06151109323324</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_I_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2422880.1967</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="template" namingSystem="EnergyComponents">L</witsml:name>
<witsml:facilityParent1 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent1>
<witsml:unit>RUB-K_L</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_L_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_L_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
A-86
Appendix 2 XML d
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3447.39426</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_L_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">281.56989238932556</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_L_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">9928115.61177</witsml:volumeStd>
<witsml:mass uom="t">0.0</witsml:mass>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-L-3_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-L-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent2>
<witsml:unit>RUB-K_L-3H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-L-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L-3H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>L-3H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="platform" namingSystem="EnergyComponents">STEIN</witsml:name>
<witsml:unit>STEIN</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:flow>
<witsml:name>STEIN_consume - fuel</witsml:name>
<witsml:kind>consume - fuel</witsml:kind>
<witsml:port>STEIN_consume - fuel_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>STEIN_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">46595.55265</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>STEIN_export</witsml:name>
<witsml:kind>export</witsml:kind>
<witsml:port>STEIN_export_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>STEIN_gas</witsml:name>
<witsml:densityStd uom="kg/m3">0.867</witsml:densityStd>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
A-87
Appendix 2 XML d
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">5839979.95822</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>STEIN_consume - flare</witsml:name>
<witsml:kind>consume - flare</witsml:kind>
<witsml:port>STEIN_consume - flare_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>STEIN_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2577.28355</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:flow>
<witsml:name>STEIN_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>STEIN_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>STEIN_oil - net</witsml:name>
<witsml:bsw uom="%">0.0</witsml:bsw>
<witsml:bswPrevious uom="%">0.0</witsml:bswPrevious>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2180.83254</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>STEIN_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">5889152.79442</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil</witsml:kind>
<witsml:name>STEIN_oil</witsml:name>
<witsml:bsw uom="%">0.0</witsml:bsw>
<witsml:bswPrevious uom="%">0.0</witsml:bswPrevious>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">2180.83254</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/11-F-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-F-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent2>
<witsml:unit>RUB-K_F-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-F-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_F-2H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>F-2H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
A-88
Appendix 2 XML d
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">P-102</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_P-102</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_P-102_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_P-102_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">-67.50001</witsml:temp>
<witsml:pres uom="bar">86.48919</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_P-102_production_portdiff</witsml:port>
<witsml:presDiff uom="bar">2.80489</witsml:presDiff>
<witsml:tempDiff uom="degC">147.96612</witsml:tempDiff>
<witsml:chokeRelative uom="%">73.81592</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_P-102_oil - net</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1580.7429</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_P-102_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3992555.32057</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_P-102_water</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">45.53580029929795</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Separator connection: B</witsml:comment>
</witsml:comment>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: P-3H, P-4H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-P-4_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-P-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent2>
<witsml:unit>RUB-K_P-4H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-P-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_P-4H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>P-4H_wellhead_outlet</witsml:port>
A-89
Appendix 2 XML d
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">0.0</witsml:temp>
<witsml:pres uom="bar">195.31943</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_P-4H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-50.15543</witsml:presDiff>
<witsml:tempDiff uom="degC">7.90144</witsml:tempDiff>
<witsml:chokeRelative uom="%">1.00746</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/12-S-3_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-S-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent2>
<witsml:unit>RUB-K_S-3H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-S-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S-3H_wellhead_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>S-3H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">99.54085</witsml:temp>
<witsml:pres uom="bar">123.61209</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_S-3H_portdiff</witsml:port>
<witsml:presDiff uom="bar">0.37582</witsml:presDiff>
<witsml:tempDiff uom="degC">-0.61342</witsml:tempDiff>
<witsml:chokeRelative uom="%">100.0</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="flowline" namingSystem="EnergyComponents">R-102</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:unit>RUB-K_R-102</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_R-102_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_R-102_injection_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">55.2939</witsml:temp>
<witsml:pres uom="bar">438.30432</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_R-102_injection_portdiff</witsml:port>
<witsml:presDiff uom="bar">-4.04123</witsml:presDiff>
<witsml:tempDiff uom="degC">-1.76668</witsml:tempDiff>
<witsml:chokeRelative uom="%">99.18838</witsml:chokeRelative>
</witsml:portDiff>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_R-102_gas</witsml:name>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">7207627.20052</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2006-04-19T23:30:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T23:30:00</witsml:dTimEnd>
<witsml:comment>Wells connected: R-1H, R-2H</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-L-1_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-L-1</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent2>
A-90
Appendix 2 XML d
<witsml:unit>RUB-K_L-1H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-L-1</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_L-1H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>L-1H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">0.0</witsml:temp>
<witsml:pres uom="bar">0.0</witsml:pres>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-I-3</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">I-101</witsml:facilityParent2>
<witsml:unit>RUB-K_I-3H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_I-3H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_I-3H_production_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">3763.15813793345</witsml:gor>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_I-3H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">673701.68117</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_I-3H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">179.02561</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_I-3H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">11.700001258095467</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">23.72140308125819</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-21T01:30:00</witsml:dTimStart>
<witsml:comment>Flowline connection: I-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
A-91
Appendix 2 XML d
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-S-3_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-S-3</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent2>
<witsml:unit>RUB-K_S-3H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-S-3</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_S-3H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>S-3H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/11-G-1</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent1>
<witsml:unit>RUB-K_G-1H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>false</witsml:wellProducing>
<witsml:wellInjecting>true</witsml:wellInjecting>
<witsml:operationTime uom="h">0.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_G-1H_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>RUB-K_G-1H_injection_inlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_G-1H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">0.0</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-28T00:30:00</witsml:dTimStart>
<witsml:dTimEnd>2005-10-31T15:00:00</witsml:dTimEnd>
<witsml:comment>Flowline connection: G-101</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="bottomhole" namingSystem="EnergyComponents">3308/12-N-2_bottomhole</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/12-N-2</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent2>
<witsml:unit>RUB-K_N-2H_bottomhole</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/12-N-2</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_N-2H_bottomhole _production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>N-2H_bottomhole _upstream_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
</witsml:flow>
</witsml:facility>
<witsml:facility>
<witsml:name kind="well" namingSystem="EnergyComponents">3308/12-P-3</witsml:name>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">P-102</witsml:facilityParent2>
<witsml:unit>RUB-K_P-3H</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:wellProducing>true</witsml:wellProducing>
<witsml:wellInjecting>false</witsml:wellInjecting>
<witsml:operationTime uom="h">24.0</witsml:operationTime>
<witsml:flow>
<witsml:name>RUB-K_P-3H_production</witsml:name>
<witsml:kind>production</witsml:kind>
<witsml:port>RUB-K_P-3H_production_outlet</witsml:port>
A-92
Appendix 2 XML d
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:gor uom="sm3/sm3">2525.7461669256904</witsml:gor>
<witsml:product>
<witsml:kind>gas</witsml:kind>
<witsml:name>RUB-K_P-3H_gas</witsml:name>
<witsml:componentContent>
<witsml:kind>gas</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">3992555.32057</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>oil - net</witsml:kind>
<witsml:name>RUB-K_P-3H_oil - net</witsml:name>
<witsml:componentContent>
<witsml:kind>oil - net</witsml:kind>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">1580.7429</witsml:volumeStd>
</witsml:period>
</witsml:product>
<witsml:product>
<witsml:kind>water</witsml:kind>
<witsml:name>RUB-K_P-3H_water</witsml:name>
<witsml:componentContent>
<witsml:kind>water</witsml:kind>
<witsml:concentration uom="%">2.7999997965242738</witsml:concentration>
</witsml:componentContent>
<witsml:period>
<witsml:kind>day</witsml:kind>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:volumeStd uom="m3">45.53580029929795</witsml:volumeStd>
</witsml:period>
</witsml:product>
</witsml:flow>
<witsml:comment>
<witsml:who>System generated - Status at 24:00</witsml:who>
<witsml:dTimStart>2005-10-18T09:00:00</witsml:dTimStart>
<witsml:comment>Flowline connection: P-102</witsml:comment>
</witsml:comment>
</witsml:facility>
<witsml:facility>
<witsml:name kind="wellhead" namingSystem="EnergyComponents">3308/11-F-4_wellhead</witsml:name>
<witsml:facilityParent1 kind="well" namingSystem="EnergyComponents">3308/11-F-4</witsml:facilityParent1>
<witsml:facilityParent2 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent2>
<witsml:unit>RUB-K_F-4H_wellhead</witsml:unit>
<witsml:network>RUBIN</witsml:network>
<witsml:contextFacility kind="well" namingSystem="EnergyComponents">3308/11-F-4</witsml:contextFacility>
<witsml:flow>
<witsml:name>RUB-K_F-4H_wellhead_injection</witsml:name>
<witsml:kind>injection</witsml:kind>
<witsml:port>F-4H_wellhead_outlet</witsml:port>
<witsml:qualifier>allocated</witsml:qualifier>
<witsml:temp uom="degC">0.0</witsml:temp>
<witsml:pres uom="bar">437.29854</witsml:pres>
<witsml:portDiff>
<witsml:port>RUB-K_F-4H_portdiff</witsml:port>
<witsml:presDiff uom="bar">-1.8679</witsml:presDiff>
<witsml:tempDiff uom="degC">32.30776</witsml:tempDiff>
<witsml:chokeRelative uom="%">99.17229</witsml:chokeRelative>
</witsml:portDiff>
</witsml:flow>
</witsml:facility>
</witsml:productVolume>
</witsml:productVolumes>
<witsml:productFlowModelSet>
<witsml:productFlowModel uid="14061996">
<witsml:name>RUBIN</witsml:name>
A-93
Appendix 2 XML d
<witsml:installation kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:installation>
<witsml:contextFacility kind="field" namingSystem="EnergyComponents">RUBIN</witsml:contextFacility>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
<witsml:dTimEnd>2006-04-19T00:00:00</witsml:dTimEnd>
<witsml:network>
<witsml:name>RUBIN</witsml:name>
<witsml:unit>
<witsml:name>RUB-K_L-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-L-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">L-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_L-2H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>L-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L_Y-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">Y-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">X</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-L_Y-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_Y-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>Y-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
A-94
Appendix 2 XML d
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L_N-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">N-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-L_N-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>N-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_N-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_N-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-N-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_N-2H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>N-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
A-95
Appendix 2 XML d
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUBIN</witsml:name>
<witsml:facility kind="field" namingSystem="EnergyComponents">RUBIN</witsml:facility>
<witsml:port>
<witsml:name>RUBIN_consume - fuel_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUBIN_consume - fuel_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>consume - fuel</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUBIN_import_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUBIN_import_inlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>import</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUBIN_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUBIN_production_inlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUBIN_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUBIN_production_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUBIN_consume - flare_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUBIN_consume - flare_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>consume - flare</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L</witsml:name>
A-96
Appendix 2 XML d
<witsml:facility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facility>
<witsml:port>
<witsml:name>RUB-L_export_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_export_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>export</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>export</witsml:flow>
<witsml:product>NGL - component in gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>export</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_production_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_consume - flare_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_consume - flare_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>consume - flare</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_production_inlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_injection_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_injection_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
A-97
Appendix 2 XML d
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_consume - fuel_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_consume - fuel_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>consume - fuel</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_L-4H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-L-4</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">L-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_L-4H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>L-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_S-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">S-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_S-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_S-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>S-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
A-98
Appendix 2 XML d
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_I-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">I-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_I-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>I-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_I-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L_H-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">H-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">H</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-L_H-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
A-99
Appendix 2 XML d
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_H-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>H-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_L-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">L-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_L-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>L-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_L-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
A-100
Appendix 2 XML d
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_L-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">L-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_L-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>L-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_L-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_G-4H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/11-G-4</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent1>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_G-4H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_P-1H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-P-1</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">P-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_P-1H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
A-101
Appendix 2 XML d
<witsml:node>P-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_R-1H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-R-1</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">R-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_R-1H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>R-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_N-1H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-N-1</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_N-1H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>N-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_S-3H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-S-3</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">S-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_S-3H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>S-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
A-102
Appendix 2 XML d
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_P-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">P-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_P-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_P-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>P-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_I-3H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-I-3</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">I-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_I-3H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>I-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
A-103
Appendix 2 XML d
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_L-3H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-L-3</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_L-3H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>L-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_P-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">P-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_P-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>P-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_P-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
A-104
Appendix 2 XML d
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_G-3H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/11-G-3</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent1>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_G-3H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L_N-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-L_N-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_N-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>N-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_N-4H</witsml:name>
A-105
Appendix 2 XML d
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-N-4</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_N-4H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>N-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_F-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/11-F-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">F-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_F-2H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>F-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_S-4H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-S-4</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">S-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_S-4H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>S-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
A-106
Appendix 2 XML d
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_Q-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-Q-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">Q</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">F-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_Q-2H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>F-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_F-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">F-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_F-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>F-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_F-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
A-107
Appendix 2 XML d
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_I-1H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-I-1</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">I-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_I-1H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>I-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_I-4H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-I-4</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">I-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_I-4H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>I-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_P-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-P-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">P-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_P-2H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>P-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
A-108
Appendix 2 XML d
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_I-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">I-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_I-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_I-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>I-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_R-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-R-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">R-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_R-2H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>R-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_R-4H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-R-4</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">R</witsml:facilityParent1>
A-109
Appendix 2 XML d
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">R-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_R-4H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>R-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_L-1H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-L-1</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">L</witsml:facilityParent1>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_L-1H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>L-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_S-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-S-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">S-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_S-2H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>S-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>STEIN</witsml:name>
<witsml:facility kind="platform" namingSystem="EnergyComponents">STEIN</witsml:facility>
<witsml:port>
<witsml:name>STEIN_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>STEIN_production_outlet_node</witsml:node>
A-110
Appendix 2 XML d
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>STEIN_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>STEIN_production_inlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>STEIN_consume - flare_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>STEIN_consume - flare_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>consume - flare</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>STEIN_consume - fuel_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>STEIN_consume - fuel_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>consume - fuel</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>STEIN_export_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>STEIN_export_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>export</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_N-3H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-N-3</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">N</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">N-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_N-3H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>N-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
A-111
Appendix 2 XML d
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K</witsml:name>
<witsml:facility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facility>
<witsml:port>
<witsml:name>RUB-K_overboard_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_overboard_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>overboard</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_consume - fuel_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_consume - fuel_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>consume - fuel</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_production_inlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water - processed</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_inventory_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_inventory_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
A-112
Appendix 2 XML d
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>inventory</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_consume - flare_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_consume - flare_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>consume - flare</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_injection_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_injection_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_production_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water - processed</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_import_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_import_inlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>import</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_export_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_export_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
A-113
Appendix 2 XML d
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>export</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>export</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>export</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L_H-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">H-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">H</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-L_H-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_H-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>H-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_S-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">S-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_S-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>S-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
A-114
Appendix 2 XML d
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_S-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_K-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-K-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">G-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_K-2H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>G-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L_J-101</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">J-101</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">J</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-L_J-101_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>J-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
A-115
Appendix 2 XML d
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_J-101_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L_Y-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">Y-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">X</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-L_Y-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_Y-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>Y-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L incl STEIN</witsml:name>
<witsml:facility kind="platform" namingSystem="EnergyComponents">RUB-L incl STEIN</witsml:facility>
<witsml:port>
<witsml:name>RUB-L incl STEIN_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
A-116
Appendix 2 XML d
<witsml:connectedNode>
<witsml:node>RUB-L incl STEIN_production_inlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L incl STEIN_export_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L incl STEIN_export_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>export</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L incl STEIN_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L incl STEIN_production_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_K-3H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-K-3</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">G-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_K-3H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>G-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_P-4H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-P-4</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">P-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_P-4H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>P-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
A-117
Appendix 2 XML d
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_F-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">F-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent1>
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_F-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>F-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-K_F-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-K_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUBIN ex STEIN</witsml:name>
<witsml:facility kind="field" namingSystem="EnergyComponents">RUBIN ex STEIN</witsml:facility>
<witsml:port>
<witsml:name>RUBIN ex STEIN_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUBIN ex STEIN_production_inlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUBIN ex STEIN_production_outlet</witsml:name>
A-118
Appendix 2 XML d
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUBIN ex STEIN_production_outlet_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>liquid</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_E-3H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/11-E-3</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">E</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">E-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_E-3H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>E-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_S-1H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-S-1</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">S</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">S-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_S-1H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>S-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_F-4H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/11-F-4</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">F</witsml:facilityParent1>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_F-4H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>E-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
A-119
Appendix 2 XML d
<witsml:name>RUB-K_P-3H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-P-3</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">P</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">P-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_P-3H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>P-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_I-2H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-I-2</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">I</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">I-102</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_I-2H_production</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>I-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil - net</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_K-1H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/12-K-1</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">K</witsml:facilityParent1>
<witsml:facilityParent2 kind="flowline" namingSystem="EnergyComponents">G-101</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_K-1H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>G-101_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-L_J-102</witsml:name>
<witsml:facility kind="flowline" namingSystem="EnergyComponents">J-102</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">J</witsml:facilityParent1>
A-120
Appendix 2 XML d
<witsml:facilityParent2 kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:facilityParent2>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-L</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-L_J-102_production_inlet</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>J-102_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
<witsml:port>
<witsml:name>RUB-L_J-102_production_outlet</witsml:name>
<witsml:direction>outlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>RUB-L_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>water</witsml:product>
</witsml:expectedFlowProduct>
<witsml:expectedFlowProduct>
<witsml:flow>production</witsml:flow>
<witsml:product>oil</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
<witsml:unit>
<witsml:name>RUB-K_G-1H</witsml:name>
<witsml:facility kind="well" namingSystem="EnergyComponents">3308/11-G-1</witsml:facility>
<witsml:facilityParent1 kind="template" namingSystem="EnergyComponents">G</witsml:facilityParent1>
<witsml:contextFacility kind="platform" namingSystem="EnergyComponents">RUB-K</witsml:contextFacility>
<witsml:port>
<witsml:name>RUB-K_G-1H_injection</witsml:name>
<witsml:direction>inlet</witsml:direction>
<witsml:connectedNode>
<witsml:node>_node</witsml:node>
<witsml:dTimStart>2006-04-19T00:00:00</witsml:dTimStart>
</witsml:connectedNode>
<witsml:expectedFlowProduct>
<witsml:flow>injection</witsml:flow>
<witsml:product>gas</witsml:product>
</witsml:expectedFlowProduct>
</witsml:port>
</witsml:unit>
</witsml:network>
</witsml:productFlowModel>
</witsml:productFlowModelSet>
</witsml:WITSMLComposite>
A-121