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National Grid`s

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National Grid’s
Commercial & Industrial
Energy Efficiency Programs
Informational & Technical Documents (revised 08/18/13)
National Grid - UNY
1125 Broadway
Albany, NY 12204
Table of Content
Page
- 1
Custom Program - Guidelines and Caps
- 2
National Grid - UNY - Service Territory Map (NIMO)
- 3
Quick Reference - Natural Gas
- 4
Quick Reference – High Efficiency Heating Equipment
- 5
Quick Reference - Electric Programs
- 6
Custom Lighting – Eligibility Requirements
- 7
Engineering Requirements – Studies and Assessments
- 8 -9
Technical Assistance Study – Report Guidelines
- 10 – 11 EMS Points List – Typical Prescriptive EMS Points
- 12 – 16 Benefit Cost (BC) Screening Methods – New 2013 Electric
Screening Tool (the Gas screening tool did not change)
o Normal Replacement – Previously Known as TOR
o Field Tools – Information Gathering Form
- 17 – 18 Comprehensive Analysis Description
o Screening Multiple Measures to Carry a Measure w/ a BC <
- 19 - 20 Sales Territories for Up-State New York (UNY)
- 21
National Grid Programs EE Study Check List
PROGRAMS CAN CHANGE WITHOUT NOTTICE!
For Program Details and Current Incentive go to:
www.nationalgrid.com
National Grid (NG) – Custom Program C&I – Gas and Electric
Guidelines and Caps
Programs Can Change without Notice
1) Natural Gas Incentives – for customers who pay the System Benefits Charge (SBC):
- $2.25 per therm for 1st year energy saved, or 50% of the project cost, whichever is less;
also subject to program caps.
- the simple payback with National Grid’s (NG) incentive cannot be less than 1 year for
commercial customers and 6 months for industrial customers
2) Electric Incentives - for customers that pay the SBC:
A) Industrial customer with peak demand less than 2 MW and commercial customers
under 2 MW:
- $0.131 per kwhr lighting and lighting controls incentive
- $0.197 per kwhr other electric projects
- incentives are limited to 50% of the project cost
- Simple Payback with NG incentive cannot be less than 1 Year (12 Months)
B) Industrial customers with a peak demand greater than 2 MW
- $0.131 per kwhr lighting and lighting controls incentive
- $0.292 per kwhr other electric projects
- incentives are limited to 50% of the project cost
- Simple Payback with NG incentive cannot be less than 1/2 Year (6 Months)
Notes:
a) Simple Payback before incentive typically needs to be half of the measure life
Ex: Motors and VFDs Measure Life = 15 years would need a <7.5 year simple payback
before NG incentive.
b) Only include the project costs that are necessary for the energy saving, Ex: Don’t
include the asbestos abatement in a boiler project.
c) When running the Benefit/Cost Screening tool, calculate the average Peak Demand
based on electric use during June, July and August between 4:00 pm and 5:00 pm
d) All projects must be screened and pass National Grid’s custom Benefit/Cost
Screening Tool with a B/C>1.
e) Time of Replacement (vs. Retrofit) incentives can be paid on the incremental cost to
upgrade from building code minimum to high efficiency options.
f) Comprehensive Analysis - screen at a measure level and if a measure screens at .85 .99, it still passes without program costs, the measure then can be combined or
packaged with other measures that all BC screen >1. You can not package gas and
electric measures.
rev 03/21/12
1
National Grid UNY - Territory Map (NIMO)
2
Gas Energy Imitative Program - Gas Incentives - C & I
SC2,3,5,7 &8 ONLY
SC - Rate
Class
Status
< ≥10,000 DTH
Service
Measures
PIF Rebate $ Each
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
2,3,5,7&8
Approved
Approved
Approved
Approved
Waiting Approval
Approved
Approved
Approved
Waiting Approval
Waiting Approval
Approved
Approved
Approved
Approved
Approved
Approved
Approved
Approved
Approved
Approved
Prescriptive
Prescriptive
Prescriptive
Prescriptive
Custom
Prescriptive
Prescriptive
Prescriptive
Custom
Custom
Prescriptive
Prescriptive
Prescriptive
Prescriptive
Prescriptive
Prescriptive
Prescriptive
Prescriptive
Prescriptive
Prescriptive
Yes
$25
Yes
$150
Yes
$250
Yes
$1.50 L/Ft
Yes
$1.50 L/Ft
Yes
20% Install $
Yes
20% Install $
Yes
20% Install $
Yes
20% Install $
Yes
$1.00 Ft2
Yes
$1,000
Yes
$1,000
Yes
$500
Yes
$1,000
Yes
$1,000
Yes
$800
Yes
$25
Yes 50% Survey Cost
Yes 25% Survey Cost
Yes 50% Study Costs
20 2,3,5,7&8
Approved
Custom
Set Back Thermostats
Boilers Reset
Boilers Reset
Pipe Insulation
Duct Insulation
Roof Insulation R-19
Roof Insulation R-30
Wall
Floor
Windows
Convection Oven
Fryers
Steamers
Rack Oven
Conveyor Oven
Combination Oven
Steam Traps
Steam Trap Survey
Steam Trap Repair
Gas Engineering Study
Custom Projects - Mid Size
Industrial and Commercial
(<10,000 DT)
21 2,3,5,7&8
Approved
Custom
Custom Projects - Large
Industrial (> 10,000 DT)
1
2
2a
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
22 2,3,5,7&8
23 2,3,5,7&8
Notes:
2
3
4
5
6
7
8
9
10
11
12
13
14
15
15a
16
16a
16b
Limit
Notes
5 Programmable Setback Thermostats
2 Single stage after factory install
2 Multi stage after factory install
500 Feet Insulation and Material per the building code
500 Feet Insulation and Material per the building code
$10k/Account 20% of installed cost of measure, Account = CSS Acct #
$10k/Account 20% of installed cost of measure, Account = CSS Acct #
$10k/Account 20% of installed cost of measure, Account = CSS Acct #
$10k/Account For Approval - Screened for cost effectiveness, Account = CSS Acct #
2,500 Ft2 Ft2 = glass area?
> 5 Units require preapproval
> 5 Units require preapproval
> 5 Units require preapproval
> 5 Units require preapproval
> 5 Units require preapproval
> 5 Units require preapproval
100 New, not rebuilt
$5,000 Preapproval required. Maximum incentive of increased to $5,000 and EUL to 6 Years
$2,500 Approved after 50% of study repairs are complete. Max incentive of $2,500
$10,000 Preapproval required. Maximum incentive of $10,000
Yes Programs Caps
50% of the installed cost, buy down of installed cost equal to a 1 Year (12 Months) simple
payback or $2.25 per therms saved annually, whichever is less
Yes Programs Caps
50% of the installed cost, buy down of installed cost equal to a 1/2 Year (6 Months) simple
payback, or $2.25 per therms saved annually whichever is less
Normal Replacement
Normal Replacement (Previously TOR) (D2) added to Retrofit option. Incentives paid on the
(Previously TOR) - Incent for
Incremental Costs for High
75% (See Note incremental cost to upgrade from building code minimum to high efficiency options. Ex: Code
Efficiency Adds
minimum boiler adds economizer, factory installed combustion controls……(See Note 15)
No Programs Caps 15)
Approved 06/17/11 Custom
Ability to screen projects at measure level and as a comprehensive project. If a measure BC
Comprehensive Analysis screens at .85 - .99, it still passes without program costs and maybe combined or packaged with
Screen multiple measures
other measures that BC screen >1. You can not package gas and eclectic measures. (See
as a comprehensive
Note 16)
project/package
Approved 06/17/11 Custom
No Programs Caps
Custom incentives measures are tailored for different customers' needs, e.g., combustion controls, production process improvements, etc.
All custom measures require pre approval
Custom measures are $2.25 per therm saved (1st year) up to $100k maximum or 50% of the installed cost, whichever is less.
All EEM incentives can not be less then a 1 year or 6 month simple payback
Custom, Screening Tool will be utilized for custom project approval
Inflating the cost of a Custom Project may cause it to be disqualified by the screening tool
All space heating and water heating equipment efficiency are based on the AHRI website - www.ahridirectroy.org
Qualified equipment must be connected to a National Grid meter and on Rates SC 2, 3, 5, 7 or 8 and pay the SBC
Incentives cannot be awarded from NG and NYSERDA for the same EEM
Customers are eligible for prescriptive, custom and combination gas and electric
Maximum incentive is $100,000 per application
Pre-inspections are required for all customer projects. They are not required for Prescriptive Gas Incentives.
Refer to the Brochure/PIF for program details.
Project Invoices for major equipment and labor will be required and for custom measures the invoices must match the original cost utilized in the prescreening tool.
Normal - National Grid may pay unto 75% of the incremental cost difference between the baseline replacement equipment and the higher efficient equipment, all other caps apply
Normal Replacement of functioning equipment past its useful life or planned renovation of space, either in-kind or change of use. NG may pay up to 100% on HVAC measures, PM approval required
Our BC Screening assumes 15% for program costs on all screening, any measures with a B/C ratio of 0.85 to .99 are assumed to pass screening without program costs
Any measures with a B/C of .85 to .99 can be screened at the project level (with program costs) using a weighted measure life of all ECMs. Weighted measure life is calculated using measure life and
energy savings information from each measure
Weighted average measure life (WAML) = (kWh Saved Yr X ML) + (kWh Saved Yr X ML) + (kWh Saved YR X ML) = kWh, WAML = kWh/Tot kWh Saved Annually
Rev. 08/09/2013, 10:25 AM
3
3
2012 CI Incentives-Quick Reference rev 08 08 13 For External Use.xls
Gas Energy Imitative Program - Gas Incentives - C & I
1
1a
2
3
4
4a
4b
4c
4d
4e
5
5a
5b
5c
5d
6
6a
1
High Efficiency Heating (HEHE)
SC - Rate
Class
Status
Service
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
2,3,5,7&8 Approved Prescriptive
Notes:
2
3
4
5
6
7
8
9
10
11
12
13
14
Measures
Furnaces - ≤ 300 MBH
Furnaces - ≤ 300 MBH/ECM Motor
Condensing UH - 151 - 400 MBH
Infrared Heaters - All Sizes
Steam Boilers - < 300 MBH
Hydronic Boilers - < 300 MBH
Hydronic Boilers - 301 - 499 MBH
Hydronic Boilers - 500 - 999 MBH
Hydronic Boilers - 1000 - 1700 MBH
Hydronic Boilers - 1701 - Larger MBH
Condensing Boilers - < 300 MBH
Condensing Boilers - 301 - 499 MBH
Condensing Boilers - 500 - 999 MBH
Condensing Boilers - 1000 - 1700 MBH
Condensing Boilers - 1701 - Larger MBH
Indirect Fired Water Heaters ≤ 50 Gal
Indirect Fired Water Heaters > 50 Gal
Integrated Water Heater/Non- Condensing Boiler
Applies to Qualifying Equipment Installed between January 1, 2013 and December 10, 2013
Rebate $
PIF Each
Limit
Notes
Yes
$200 See note 11
≥92% AFUE
Yes
$400 See note 11
≥92% AFUE
Yes
$500 See note 11
≥92% AFUE
Yes
$500 See note 11
Low Intensity Infrared only
Yes
$600 See note 11
≥82% AFUE
Yes
$800 See note 11
≥85% AFUE
Yes
$1,600 See note 11
≥85% TE
Yes
$2,000 See note 11
≥85% TE
Yes
$2,800 See note 11
≥85% TE
Yes
$4,000 See note 11
≥85% TE
Yes
$1,600 See note 11
≥92% AFUE
Yes
$2,400 See note 11
≥92% TE *
Yes
$4,000 See note 11
≥92% TE *
Yes
$8,000 See note 11
≥92% TE *
Yes $12,000 See note 11
≥92% TE *
Yes
$100 See note 11
≤50 Gal. Storage
Yes
$300 See note 11
≤50 Gal. Storage
Yes
$1,000 See note 11
85% AFUE/CA-AFUE (Must be considered one unit by the manufacturer)
Custom incentives measures are tailored for different customers' needs, e.g., combustion controls, production process improvements, etc.
All custom measures require pre approval
Custom measures are $2.25 per therm saved (1st year) up to $100k maximum or 50% of the installed cost, whichever is less.
All EEM incentives can not be less then a 1 year simple payback
Custom, Screening Tool will be utilized for custom project approval
Inflating the cost of a Custom Project may cause it to be disqualified by the screening tool
All space heating and water heating equipment efficiency are based on the AHRI website - www.ahridirectroy.org
Qualified equipment must be connected to a National Grid meter and on Rates SC 2, 3, 5, 7 or 8 and pay the SBC
Customers are eligible for Prescriptive, Custom and combination gas and electric incentives
Incentives cannot come from NG and NYSERDA for the same EEM
Maximum incentive is $100,000 per application
Pre-inspections are required for all customer projects. They are not required for Prescriptive Gas Incentives.
Refer to the Brochure/PIF for program details.
Project Invoices for major equipment and labor will be required and for custom measures the invoices must match the original cost utilized in the prescreening tool.
* TE = Thermal Efficiency
Rev. 08/09/2013, 10:25 AM
4
2012 CI Incentives-Quick Reference rev 08 08 13 For External Use.xls
Electric Energy Imitative Program - Electric Incentives - C & I
Energy Efficiency C&I (EE - Electric Programs)
SC Rate
Class
2, 3 & 7
2, 3 & 7
2, 3 & 7
2, 3 & 7
Service
CEX
Custom
Prescriptive
Custom
Measures
HVAC VFDs
VFDs
Lighting
Lighting
PIF
Yes
Yes
Yes
No
3 2, 3 & 7 Approved 03/01/11
CEX
EMS - 5,000 - 40,000 Ft2
Yes $225 Per Point
131 mWh
Up to 16 Elect &
4 Gas Points
Electric/Gas EE points only. No lighting or Alarm (Virtual) points allowed (CEX = Custom Express Tool)
3a 2, 3 & 7 Approved 03/01/11
CEX
EMS - 40,001 - 80,000 Ft2
Yes $275 Per Point
Up to 48 Elect &
12 Gas Points
Electric/Gas EE points only. No lighting or Alarm (Virtual) points allowed (CEX = Custom Express Tool)
3b 2, 3 & 7 Approved 03/01/11
CEX
EMS - 80,001 - <200,000 Ft2
Yes $225 Per Point
1
1a
2
2a
Status
Approved
Approved
Approved 03/03/10
Approved 06/10
Rebate $ Each
Programs Caps
Programs Caps
Table: 1A
Limit
Up to 128 Elect
& 32 Gas Points
Sensor Qty =
Units Controlled
1 Sensor Per
Machine
1 Sensor Per
Machine
1 Sensor Per
Machine
Notes
Controlled by pressure, temperature or other. Note # 3
Controlled by pressure, temperature or other. Note # 3
See Lighting Systems Eligibility & Incentive Table 1A
$30k or Unique or unusual circumstance
Electric/Gas EE points only. No lighting or Alarm (Virtual) points allowed (CEX = Custom Express Tool)
Heat Pumps/Electric PTACs/Fan Coil Units only
All vending machine & cooler sensors must be installed on vending/cooling equipment scheduled to remain in service
for minimum of 3 years. Note 17
3c 2, 3 & 7 Approved 03/01/11
Prescriptive
EMS - Hotel Occupancy Sensor
Yes $75 Per Sensor
3d 2, 3 & 7 Approved 03/01/11
Prescriptive
Vending Miser - Refrig Beverage
Yes $75 Per Vending Machine
3e 2, 3 & 7 Approved 03/01/11
Prescriptive
Vending Miser - Non Refrig Snack
Yes $30 Per Vending Machine
3f 2, 3 & 7 Approved 03/01/11
Prescriptive
Vending Miser - Glass Front Refrig Coolers
Yes $75 Per Vending Machine
4 2, 3 & 7 Approved 03/03/10
Prescriptive
Compressor ≥15 HP to <25 HP
Yes $205 L/NL, $275 VFD, N/A VD
L/NL = Load No Load, VD = Variable Displacement. Incentive $ X HP
4a 2, 3 & 7 Approved 03/03/10
Prescriptive
Compressor ≥25 HP to <50 HP
Yes $205 L/NL, $275 VFD, N/A VD
L/NL = Load No Load, VD = Variable Displacement. Incentive $ X HP
4b 2, 3 & 7 Approved 03/03/10
4c 2, 3 & 7 Approved 03/03/10
Prescriptive
Prescriptive
Compressor ≥50 HP to <75 HP
Compressor Storage
Yes $205 L/NL, $275 VFD, $215 VD
Yes $2.75 Per Gallon
L/NL = Load No Load, VD = Variable Displacement. Incentive $ X HP
Compressor Storage = Air Receiver Tank
Custom Projects - Mid Size Industrial and
Commercial (<2 mW)
Yes Programs Caps
50% of the installed cost, buy down of installed cost equal to a 1 Year (12 Months) simple payback, whichever is
less
5 2, 3 &7
Approved 03/03/10
Custom
5a 2, 3 &7
Approved 04/14/11
Custom
5b 2, 3 &7
Approved 06/17/11
Custom
Custom Projects - Large Industrial (> 2 mW)
Time Of Replacement (TOR) - Incent for
Incremental Costs for High Efficiency Adds
No
Programs Caps
20 2, 3 &7
Approved 06/17/11
Custom
Comprehensive Analysis - Screen multiple
measures as a comprehensive project/package No
Programs Caps
Yes Programs Caps
75% (See Note
15)
50% of the installed cost, buy down of installed cost equal to a 1/2 Year (6 Months) simple payback, whichever is
less
Incentives paid on the incremental cost to upgrade from building code minimum to high efficiency options. Ex WSHP
add ECM motor, 2 stage compressor, flow control… (See Note 15)
Comprehensive Analysis - screen at a measure level and if a measure screens at .85 - .99, it still passes without
program costs, the measure then can be combined or packaged with other measures that all BC screen >1. You
can not package gas and eclectic measures (See Note 16)
6 2, 3 &7 Approved
Prescriptive
Electric Engineering Study
50% Study Costs
$15,000 Preapproval required. Maximum incentive of $15,000
Notes:
1 Custom incentives measures are tailored for different customers' needs, e.g., combustion controls, production process improvements, etc.
2 All custom measures require preapproval
3 VFD/VFD Motors - Boiler Draft Fans, Building Exhaust, Cooling Towers (Single Speed), Chilled or Condenser Water Pumps, Boiler Feed Water, HW Circ Pumps, MUA Fans, Process Pumps,
Process Exh/MUA,. HVAC Ret/Sup Fans, WSHP Condenser Loop, Supply or Waste Water Pumps
4 All EEM incentives can not be less then a 1 year simple payback
5 Custom, Screening Tool will be utilized for all Custom project approval
6 Inflating the cost of a Custom Project may cause it to be disqualified by the screening tool
7 All lighting equipment efficiency are based on the Energy Star or the Design Light Consortium
8 Qualified equipment must be connected to a National Grid meter and the SBC paid
9 Incentives cannot be awarded from NG and NYSERDA for the same EEM
10 Customers are eligible for Prescriptive, Custom and combination gas/electric measures
11 Preapproval is required for all incentives ≥$25,000
12 Incentives are capped at 50% of the total cost (equip and installation) or $100,000 per project, whichever is less
13 Pre-inspections are required for all customer projects. They are not required for Prescriptive Electric Incentives.
14 Refer to the Brochure/PIF for program details.
15 Project Invoices for each piece of major equipment and labor will be required excluding sales tax and salvage/resale for replaced equipment.
16 Project Invoices for major equipment and labor will be required and for custom measures the invoices must closely match the original cost utilized in the screening tool.
17 Only refrigerated vending machines, glass-front refrigerated coolers and non-refrigerated snack vending machines with lighting that contains nonperishable goods and that are installed indoors are eligible.
15 TOR - National Grid may pay up to 75% of the incremental cost difference between the baseline replacement equipment and the higher efficient equipment. All program caps apply.
15a TOR - Replacement of functioning equipment past its useful life or planned renovation of space, either in-kind or change of use
16 Our BC Screening assumes 15% for program costs on all screening, any measures with a B/C ratio of 0.85 to .99 are assumed to pass screening without program costs
16a Any measures with a B/C of .85 to .99 can be screened at the project level (with program costs) using a weighted measure life of all ECMs. Weighted measure life is calculated using measure life and energy savings information from each measure
16b Weighted average measure life (WAML) = (kWh Saved Yr X ML) + (kWh Saved Yr X ML) + (kWh Saved YR X ML) = kWh, WAML = kWh/Tot kWh Saved Annually of combined measures
Rev. 08/09/2013, 10:23 AM
5
2012 CI Incentives-Quick Reference rev 08 08 13 For External Use.xls
Minimum Eligibility Requirements for 2013 Custom Lighting*
1) Lighting projects with combined labor and materials cost exceeding $30,000 unless there is a unique or
unusual circumstance such as the following:
a) Unique facility lighting requirement, b) Unique hours of operation (typical hours average 4,000 and
those that vary from the standard hours for their facility type), c) Unique labor or materials cost (ex:
doubling the fixtures to meet lighting requirements) and d) Unique fixture type (obsolete existing fixture,
antique replica, etc.)
2) The project’s or fixture(s) type prescriptive calculated incentive is < $.131 per kWh by fixture type by
prescriptive code. ($/kWh on the project must be lower or equal to $0.131/kWh)
3) Lighting must meet these requirements
a) CEE lamp ballast and lamps criteria (applies to 4 ft fluorescent lights only)
b) For 2x4 and 2x2 recessed fixtures (codes 30A, 30B, 30C, 31, 32 and 34) industrial fixtures (51, 52,
56, 57), wraps and reflector kits (Code 41), Vapor Tights (Code 43), Clean Room (Code 44) must follow
prescriptive eligibility criteria
Exception prescriptive eligibility criteria
a) Facility lighting must average 2,000 per year, except municipal facilities which must average a
minimum of 1,000 hours.
b) Lighting controls minimum watts save (Min Watts saved)
4) Detailed energy savings analysis including:
a) Existing and Proposed fixture type – make, model numbers and performance data of all components
b) Floor plan denoting area for existing and proposed fixture locations by zones or areas
c) An EXCEL Spreadsheet (unprotected) showing as a minimum existing and proposed fixture,
quantities, kWh, kW, labor units (hours and or $), individual fixture, lighting control cost and incremental
electric and gas cost.
d) Lighting Controls demand (kW) savings will be calculated utilizing either actual data acquisition or by
the NYS Technical Manual, DSF on page 114. Lighting energy savings will be calculated using either
actual data acquisition or Standard Decrease in Operating Hours (%) where appropriate. Higher
percentages of savings due to controls may be considered where non-standard conditions exist. Where
a combination control is used the control savings can be combined while accounting for control
interactions.
Control Type
Occupancy Sensor
Programmable Control
Daylight Control
Daylight Stepped Control
Standard Decrease in Operating Hours (%)
30%
15%
30%
20%
e) Lighting and lighting controls can be screened as a common measure as longs as the total annual
kWh savings from lighting controls are 5% or less of the total savings. If the total kWh savings from
controls is >5% they will be screened as a separate measure, requiring separate energy savings
calculations and lighting controls project cost.
f) HVAC kW/kWh savings can be included in the total lighting and lighting controls total kW/kWh
savings. The HVAC savings will be calculated utilizing the NYS Technical Manual, page 111 and
appendix D. The HVAC heating penalty will be calculated for documentation purposes only.
g) Nonqualified lighting and lighting controls will not be incented but the kW and kWh savings
calculations are required for screening purposes. The nonqualified lighting and lighting controls savings
and project costs are a requirement.
5) Data Acquisition:
a) Measure all existing lighting conditions and denote them on a floor plan
b) Verify hours of operation or be able to verify hours of operation in all areas as required by the MRD
c) Meter and Verification – Pre and post metering of custom projects as required by the MRD
6) All custom projects will be evaluated on a case by case basis for final approval by the Technical Support
Consultant
7) LED Lighting Effective Useful Life (EUL). LED lighting has to be listed on the DLC’s or Energy Star’s most
current lists. The lighting EUL is impacted by ambient temperature that they are installed in, so the EUL is
50,000 hours exterior, 35,000 hours interior, NG Approved but unlisted is 25,000 hours and all other lighting is
70,000 hours. Being considerate of the LED EUL impact a project consideration could be to use a weighted
average (EUL) measure life.(See internal memo from TC on the DLC decision for LEDs).
6
rev 07/17/13
National Grid EE Program
Engineering Requirements - Working Document - Studies and Assessments
1) Energy Assessment
Benchmarking of Therm/sqft
Opportunity For Prescriptive Measures (Rebate $, Approximate % savings, etc.)
Possible Pathways for Other Programs
EEM Breakout/Energy Plan
Description Of Next Steps (SS, TA, Pre-Measurements, Etc.)
2) Scoping Study
Contact Sheet (Customer, Engineering Vendor and N-Grid contact info)
Description of Facility
Energy Usage
Bench Marking - Energy Intensity Kwh/sqft, Therm/sqft, kWh/# of product, etc.)
List of Suggested Measures
Descriptions
Savings
Cost (Example RS Means)
Incentives (Listed with Limitations)
Calculations (based upon Engineering Calculations or Industries Standards)
Program Pathways
List Of Other Possible Measures
Energy Star Portfolio Manager
EEM Breakout/Energy Plan
Description Of Next Steps (TA, Pre-Measurements, Etc.)
3) Technical Assessment Study (TA)
Contact Sheet (Customer, Engineering Vendor and N-Grid contact info)
Summary Of Measures
Description Of Facility (Age, Schedule, Future Expansion?)
Energy Review
At least 2 Years of Energy Usage (both Electric and Gas
Energy Baseline (Usage normalized for weather If the measures involved Heating and/or Cooling)
Can be done by Degree Day or Bin
Measures That are eligible
Description Of Measures
Baseline
Description Of the base case
Equipments' Age, Capacity, Schedule Of Operation, Efficiency, Metering Data, Operation Logs
High Efficiency Option
Savings (Therms, kHz, kW, $, and other possible non-energy savings)
Cost (both Base case and HE Option)
Incentives (both gas and electric)
Calculations
(Should be based upon good engineering practices like ASHRAE, AEE, or equal)
Or Approve Engineering Modeling Software (like Equest, Trace 700, DOE2, etc.)
The savings must encompass the impact on the entire system, including all auxiliary and ancillary
Spreadsheets should be included in this section.
Program Pathways (New Construction, Retrofit, Custom, Prescription, etc.)
Minimum Requirements Documents
Sequences of operations. necessary to assure savings
List of details for a post inspector to determine compliance
Pre and Post Metering Requirements
Other Issues (Environmental, Interconnect Requirements, etc..)
Carbon Reductions from Project (optional)
EEM Breakout/Energy Plan
Description Of Next Steps (Offer Letter, Pre-Measurements, Etc.)
Appendix
Supporting Documents
Software runs
Metering Logs
Benefit/Cost Runs
Applicable Forms (Rebate Forms, Offer Letters, CIA, etc.)
Cut Sheets Of EEM (Optional)
08/09/2013,10:43
AM
C:\Documents
and Settings\hickoke\My Documents\1NG\NG Tech 7
Info\Engineering Docs 04 11\Study Explanation SS for TACs 08 08 13.xls
7
Technical Assistance Reports
Technical Assistance Study - Report Guidelines
TA Services consultant will prepare a draft written report to be submitted to NATIONAL GRID Business
Services Representative (BSR) for review (prior to customer receiving copy unless otherwise
instructed!). The NATIONAL GRID BSR will review the report, make comments or corrections, provide
information on any NATIONAL GRID incentives, and for return final report preparation. Final report with
NATIONAL GRID covers will be sent to NATIONAL GRID BSR for distribution to Customer. Each report
shall include the following information.
Cover Page - Provided by NATIONAL GRID
Title Page: Provide the following information:
1. Customer Name and Project Title
2. Building Name and Location
3. Identity of Sponsoring Companies (NATIONAL GRID and retail company; i.e. Massachusetts Electric,
Narragansett Electric, Granite State Electric or Nantucket Electric)
4. TA Consulting Firm Identity, including address and phone number
5. Energy Services Request (ESR) authorization number.
Table of Contents
Provide a detailed list of all sections and appendices with page numbers or tabbed sections.
Executive Summary
1. Identify the participants, both NATIONAL GRID and Customer contacts.
2. Briefly describe the scope of the study, the measures recommended, and a cost and savings summary
table.
3. If requested by the BSR, incorporate a printout of a representative financing scenario prepared using a
Company supplied spreadsheet template.
4. Do not indicate or discuss the value of potential rebates, unless instructed to do so by NATIONAL
GRID BSR.
Facility or Measure Description
Characterize building usage and occupancy profiles, facility size, construction features, equipment
description and operations, etc. as required by the scope and project size. Electric rates and costs used
in the savings calculation may be addressed here.
C:\A_tompc\TA Reqt's\TA_REPOR.WPD
Technical Assistance Report
8
Equipment List and/or Descriptions
Provide a detailed equipment schedule or list, which contains pertinent information for all equipment
involved in the conservation project or measure. This section's information may be incorporated in
another section, but this information is required for all projects.
ECM Detail: Provide a narrative summary for each ECM, which is recommended. Clearly document key
assumptions made in analyzing each measure and describe the method of analysis. If a building
simulation or modeling program was used, provide a narrative on the input data used to screen each of
these measures. This is especially important when assumptions deviate from the models default
assumptions. Provide cost estimates including source of cost data, value of energy savings including fuel
impacts.
Provide the following data in the order shown for each energy conservation measure (ECM) which are
cost-effective under company guidelines:
1. ECM description
2. Estimated installation costs, or base and incremental cost
3. Estimated kWh/yr. savings
4. Estimated peak kW
5. Estimated annual operating1 cost savings
6. Simple payback
ECM Minimum Requirements Documentation:
Provide a precise, succinct outline specification for each measure recommended for incorporated into the
final system design. This specification shall be as complete as need be to allow the Owner's Design
Team to incorporate the study recommendations into their final design and for subsequent
Commissioning agents to be able to identify compliance with design intent. It must incorporate technical
and operational requirements for the new system. It may include other concerns necessary such as
demolition or testing.
Appendices: (where applicable)
1. NATIONAL GRID Custom Spreadsheet screening runs for individual ECM’s recommended in the final
report.
2. Methods of analysis: Provide verbal descriptions and documentation of any in-house spreadsheets
used for energy use and savings estimates.
3. When TRACE, DOE2 or other public sector programs are used for analysis, submit input and output
files of both the base-case and final designs. Provide brief descriptions of multiple runs. Submit disk
copy of final runs.
4. Facility energy consumption data.
5. Monitoring or metering data
C:\A_tompc\TA Reqt's\TA_REPOR.WPD
Technical Assistance Report
9
Energy Management Systems (EMS)
Typical Prescriptive Points Sorted by Equipment Type
Existing EMS is Required
Typical Points Incented
Air Handling Units = AHU
Point
General
Outdoor Temperature Sensor
Humidity Sensor (RH)
Carbon Dioxide Detector
Carbon Dioxide Detector
Enable/Disable
Unitary Points Morning Warm-up/Cool Down
Minimum Outdoor Air Damper
Primary Outdoor Air Damper
Indoor Blower
Exhaust Blower
Heat Recovery
Discharge Air Sensor
Hot Water Control Valve(s)
Chilled Water Control Valve(s)
Return Air Sensor
Mixed Air Sensor
Energy Status
Low Static Air Filters
Use
Dry Bulb Economizer/Enthalpy Economizer/Optimum Start/Stop
Indoor Humidity Control/Enthalpy Economizer
Exterior Detector
Interior Zone Detectors
Occupied / Unoccupied
Optimum Start/Stop. Use outdoor air if conditions are correct, purge
Required when building is occupied
Economizer/Demand Control Ventilation (DCV) Damper/Fresh Air
Reduce capacity unless required for space conditioning /VFD
Building pressurization/VFD
Wheel, Heat-Pipe/VFD
Reset control, comfort,
Hot water reset
Chilled water reset
Morning warm up/cool down
Not needed with a RA/Outdoor Air math block
Monitoring/Alarming page or alarm building system or operator
Static Pressure Differential when used with High Efficiency Filters
Secondary Controller
If additional points are required to add EMS to existing primary controller
Notes:
1
2
3
4
5
Chilled Water Plant
Point
General
Outdoor Temperature Sensor
Enable/Disable
Unitary Points Chiller
Primary Chilled Water Pump(s)
Static Pressure Sensor
Secondary Chilled Water Pump(s)
Static Pressure Sensor
Condenser Water Temperature Control
Discharge Chilled Water Sensor
HX
Condenser /Cooling Tower
Primary Condenser Water Pump(s)
Static Pressure Sensor
Condenser Water temperature Sensor
Secondary Chilled Water Pump(s)
Static Pressure Sensor
Condenser Water temperature Sensor
Tower Fans
Free Cooling - Economizer
Water Treatment
Notes
1,
1'
1,
2,
3,
4,
4,
5,
5,
Type
AI
AI
AI
AI
DO
DO
AO
AO
AO/DI
AO/DI
AO
AI
AO
AO
AI
AI
DI
AI
COM
One (1) required per common network
Minimum of one (1) per individual zone
To schedule off during unoccupied times on a user defined schedule
Alarm/Status required
Convert form a DI to a AI for reset control (3 way valve)
Use
Dry Bulb Economizer/Enthalpy Economizer/Optimum Start/Stop
Occupied / Unoccupied all components
VFD
Notes Type
1,
AI
2,
DO
AO
AI
AO
AI
VFD
Control
Reset control, comfort, humidity control
AI
VFD
Primary
VFD / Heat Exchanger/Glycol
Heat Exchanger/Glycol
Heat Exchanger/Glycol
VFD - Temperature controlled
AO
AI
AI
AO
AI
AI
AO
Conductivity ???
AI
Notes:
1 One (1) required per common network
2 To schedule off during unoccupied times on a user defined schedule
3:34 PM, 04/05/2012
10
NG EMS Prescriptive Points 02 23 11.xlsx
Boiler Plant (Hot Water and or Steam)
Point
General
Outdoor Temperature Sensor
Enable/Disable
Unitary Points Boiler
Primary Hot Water Pump(s)
Static Pressure Sensor
Secondary Hot Water Pump(s)
Static Pressure Sensor
Discharge Chilled Water Sensor
HX
Use
Dry Bulb Economizer/Enthalpy Economizer/Optimum Start/Stop
Occupied / Unoccupied all components
VFD
Reset control, comfort, humidity control
AO
AI
AO
AI
AI
VFD / Heat Exchanger/Steam to Hot Water
Heat Exchanger/Steam to Hot Water
Heat Exchanger/Steam to Hot Water/Reset Temperature
AO
AI
AI
VFD
Secondary Hot Water Pump(s)
Static Pressure Sensor
Water Temperature Sensor
Notes Type
1,
AI
2,
DO
Notes:
1 One (1) required per common network
2 To schedule off during unoccupied times on a user defined schedule
Misc. Systems
Point
Exhaust Fans
Domestic Hot Water Circulation Pumps
Domestic Water Circulation Pumps
Water Coolers/Drinking Fountains
Vending Machines
Lighting
Other Preapproved Energy Savings Point(s)
3:34 PM, 04/05/2012
Use
Occupied/Unoccupied/Status
Occupied/Unoccupied/Status
Occupied/Unoccupied/Status
Occupied/Unoccupied/Status
Occupied/Unoccupied/Status
Occupied/Unoccupied/Status
11
Notes Type
DO
DO
DO
DO
DO
DO
NG EMS Prescriptive Points 02 23 11.xlsx
Upstate NY – C&I Electric Program
BC Screening Method for Equipment
1) Energy Initiative - BC Screening Method: Retrofit
•
Applies only to lighting and ECR Motors related measures.
•
Uses full values of savings and project costs on lighting and lighting related measures.
Lighting controls apply when the lighting controls savings is < then 5% of total lighting
project savings (see # 3 below, add-on) .
• Operating hours, lighting type, application (outdoor or indoor) and calculated lighting
measure life is utilized for screening
2) Energy Initiative - BC Screening Method: Early Replacement
•
Applies to non-lighting related measures.
•
Replacement of equipment before it reaches end of its Effective Useful Life (EUL).
•
Projects will follow the Tech Manual Appendix M methodology incorporating Dual
Baseline Method of analysis.
•
If one cannot document or substantiate the age of the equipment in place is less than
its prescribed EUL, the replacement must be analyzed as normal / end of life
replacement.
3) Energy Initiative - BC Screening Method: Add-On
•
Add-ons would be enhancing performance of existing equipment by adding devices
such as VFD, lighting controls (> 5% savings, see bullet 2, retrofit above), compressed
air storage tanks, EMS, etc.
4) Energy Initiative - BC Screening Method: Normal [Formerly Time of Replacement]
•
Age of the equipment in place is past its EUL, the replacement must be analyzed as
normal / end of life replacement.
•
Analysis uses code referenced design criteria or industry standard equipment as
baseline. A code example is the 2010 Energy Conservation construction code of New
York, if applicable.
•
Required will be the cost and energy usage of Code standard equipment to be used for
the baseline for screening.
•
Required cost and energy usage of proposed equipment to be used as EE (proposed)
equipment for screening.
BC Screening Methods
1 of 2
07/18/13
12
The electric (not gas) BC screening tool will automatically calculate the program caps when you select
electric program option D2 and Normal Replacement. For gas the 75% incremental costs will have to be
calculated by hand.
The BC screening tool will set the incentive at 75% of the incremental not to exceed 50% of the total
project/EEM cost where the project cost is the labor and materials for the new high efficiency
equipment. All other caps are in place: $/kWh, $/therm, buy down to 1 year payback for commercial /6
month payback for industrial customers or 50% of the total project cost , whichever is the least amount
Note: For more information on Normal Replacement see a document titled : Normal Replacement
(Formerly Time of Replacement (TOR)) 07/18/13
5) Energy Initiative - BC Screening Method: Special Circumstances
•
Applies to only commercial and industrial machinery and multi-family central systems
but not to lighting equipment.
•
Customers typically influenced by initial capital outlay more than life cycle economics
due to lack of capital.
•
Customers with short time horizons and other factors which tend to prevent long range
economic decision making with regard to the installation of high efficiency equipment.
Special Circumstances must follow this five criteria regarding equipment being considered for
replacement:
1. Equipment age equals or exceeds 125% of its effective useful life (EUL) and energy
consumption significantly exceeds that of current high efficiency models by at least
20%.
2. There is a history of significant repairs or replacement with used equipment
3. The prospective next repair or replacement is likely to be initially much less expensive
than replacement with new high efficiency machinery.
4. Documentation to support above criteria must be collected and attached to the
application in InDemand.
5. Equipment fitting these criteria would be subject to a form of dual baseline TRC
screening. Initial baseline of 25% of new measure’s prescribed EUL. Second baseline
consists of 75% remainder based on minimally code compliant or standard efficiency
equipment. Under this approach, first year savings would be reported as the difference
between the existing equipment’s electric usage and that of the high efficiency
equipment which replaces it. Analysis will require use of tables published by PSC under
Appendix N to the NY Tech Manual.
BC Screening Methods
2 of 2
13
07/18/13
Normal Replacement (Formerly Time of Replacement (TOR))
Upstate NY C&I Programs
07/18/13
What is Normal Replacement?

Any time dependant opportunity where the customer is forced to buy new
equipment
 Replacement of failed or obsolete equipment
 Replacement of functioning equipment past its useful life
 Adding capacity to an industrial process, either by expanding capabilities
&/or capacity of existing equipment or addition of new or refurbished
equipment
 Planned renovation of space, either in-kind or change of use


Allow National Grid to incent the purchase of more efficient equipment
Under TOR, National Grid will incent up to 75% * (see below) of the incremental
cost difference between the baseline replacement equipment and the higher
efficient equipment.
The electric (not gas) BC screening tool will automatically calculate the program
caps when you select electric program option D2 and Time of Replacement/New
Construction (Normal Replacement). For gas the 75% incremental costs will
have to be calculated by hand. Electric HVAC measure may be approved for
100% of the incremental cost. All other program caps apply.
* The BC screening tool will set the incentive at 75% of the incremental not to
exceed 50% of the total project/EEM cost where the project cost is the labor and
materials for the new high efficiency equipment. All other caps are in place:
$/kWh, $/therm, buy down to 1 year payback for commercial /6 month payback
for industrial customers or 50% of the total project cost , whichever is the least
amount
Retrofit vs. Normal Replacement
1) Retrofit
 Equipment running well but primary objective is to replace with more energy
efficient equipment
 Screening done with total project cost (Material + Labor) and total energy
savings (current vs. new)
2) Normal Replacement (previously TOR)
 Replacement of failed equipment, adding capacity, or planned renovation for
reasons other than just improving energy efficiency
 Screening done with incremental cost and incremental energy savings
between baseline replacement equipment vs. higher efficiency equipment
14
Normal Replacement (Formerly TOR) continued
Upstate NY C&I Programs
Normal Replacement Scenarios

Replacement of modulating compressor with VSD unit
Compare incremental cost between Load/No Load unit & VSD with incremental
energy savings
 Replacement of outdated equipment
Incremental costs with incremental energy savings vs. baseline equipment
 Renovation &/or reconfiguring building space for new uses
Ex: Reconfiguring mfg. or warehouse space to office: Compare MV or MH
lighting fixture replacement with HIF fixtures & lighting controls
 Upgrading production or process equipment to improve operating efficiency
and costs
Ex: Rebuilding of existing equipment incorporating modern technology;
Compare costs & energy use with and without upgraded technology
 Replacement of high dollar value replacement projects
Ex: Large chiller plant or other complex custom projects that
would not pass under the retrofit option
Examples of Grey Areas (Normal)
 Building renovation or expansion
 Customer has no choice except to rebuild or replace
 Measure passes under both retrofit and Normal analysis
 Industrial Process Equipment upgrades
Rules of Engagement (Normal)
 Only applicable to existing buildings or facilities
 Renovation of existing buildings should not exceed 50% +- of the existing
building square footage
 Building additions do not qualify for TOR process
 Use with electric or gas measures
 Compare the TOR incentive with other incentive to maximize the savings or
incentive for same measure
Data to be Collected – Normal Replacement Screening
 Baseline equipment replacement cost
• Material & Labor
 Proposed equipment replacement cost
• Material & Labor
 Determine incremental energy savings of high efficiency equipment over baseline
efficient equipment
 Use incremental costs & incremental energy savings in the B/C tool to determine
incentive
15
National Grid - UNY
BC Screening Method Equipment Information Form - Field Data
Project Name: Name
Application #:
ESR #:
Equipment ID or Name:
- Goal - For the 2013 Electric B/C Screening tool all of the following information is required.
- Existing Age - Custom projects other then Normal Replacement will not be considered for incentive If the documented age of the existing equipment can not be
provided
Screening Method (Choose 1)
Method Used = X
1
Lighting or ECMR - Retrofit
2
Add-on
3
Early Replacement
4
Normal Replacement
5
Special Circumstance
Input
1 Measure
Alternative Method - Describe reason for alternate screening method
ex: Use Normal Replacement instead of Special Replacement for process equipment
beyond useful life. Equipment had no history of high maintenance and was well
maintained.
Comments
Notes
HVAC
Effective Useful Life (EUL) *
Measure
Years
AGRI
13
CAIR
15
CHIL
20
3 Effective Useful Life (EUL) *
ECMR
15
4 Remaining Useful Life ( EUL - Actual Age )
EMSB
15
FOOD
12
2 Actual Age of Existing Equipment
4
5 Annual kWh usage of Existing Equipment
5
HVAC
15
6 Annual kWh usage of Code Min./Standard Equip.
3
INRG
15
7 Annual kWh Usage of EE Equipment
LEDR
4
LEDS
15
8 kW usage of Existing Equipment
5
LGHT
15
9 kW usage of Code Min./Standard Equip
3
LGTC
8
LHID
14
10 kW Usage of EE Equipment
LIND
15
11 Full Cost of installing EE equipment
MOTR
15
12 Cost of installing Code Min./Standard Equip.
OTHER
5
Notes:
1 * EUL is published in the New York Standard Approach for Estimating Energy Savings from Energy Efficiency
Programs, AKA - NYS Technical Manual
Comprehensive Analysis (CA) will require the data above be collected for each piece of equipment associated
2 with the CA
O&M
5
PCHL
20
PCOL
13
PROC
13
REFC
15
3 For lighting and add on you would not need std/code kw or kwh...
REFG
15
4 Lighting does not need existing age
VSDH
VSDO
15
15
5 For Normal you would not need existing kw or kwh
6 Early or special would need all of the information above
Notes
rev: 08/19/2013
BC Screening Method Equip From - FIELD 08 18 13.xlsx
16
Comprehensive Analysis
For Upstate NY C&I Energy Efficiency Screening
07/18/11
Comprehensive Analysis allows us to benefit/cost (BC) screen individual EEMs without
program costs and bundle EEMs and BC screen with program costs. This opportunity allows
us to:
 BC screen at individual measure (EEM) level without program costs
 BC Screen at the project (multiple EEMs) level with program costs
 Helps to pass measures within a project that might not pass individually if screened
with program costs
 The BC tool assumes 15% for program costs on all screening
 Any measures with a BC ratio of 0.85 to .99 are assumed to pass screening without
program costs
 Any measures with a BC of .85 to .99 can be screened at the project level (with program
costs) using a weighted average measure life (WAML)*of all EEMs
 WAML is calculated using measure life and energy savings information
from each measure (WAML needs to be calculated by hand – see below)
 Comprehensive measure codes in the 2011 BC tool allow for screening at measure lives
of 9-18 years
PROCESS FOR SCREENING MEASURES UNDER THE COMPREHENSIVE ANLYSIS
Step One - Screen measure (EEM) individually
Step Two - If any measure has a BC of 0.85 to <1 then the measure would pass screening if
program costs were not included in the BC calculation
- Measures with a BC less than .85 cannot be included in the project and cannot be
incentivized.
- Gas & Electric measure/EEMs cannot be combined in the same project or BC screening
Step Three - Screen all the measures with a BC greater than .85 as comprehensive using a
weighted measure life of all the ECMs. Incentivize entire project and all ECMs if B/C is >1.
 Weighted average measure life needs to be calculated by hand – see below *
 In the 2011 BC tool chose measure codes CR9 thru CR18 depending on the calculated
WAML, anywhere from 9 -18 years
* Example WAML Calculation
ECM (measure life)
VSD on vacuum pump (AGI)
Scroll compressor (AGI)
HPS lighting (LGHT)
Total annual savings
Energy savings (kWh)
21,024
8,338
2,070
31,432
ML (years)
13
13
15
Total life time savings over all measures:
(21,024X13) + (8,338X13) + (2070X15) = 412,756 kWh
Weighted average measure life = 412,756 / 31,432 = 13.13 years
Use measure code CR13 for this project.
16
17
Comprehensive Analysis (Continued)
For Upstate NY C&I Energy Efficiency Screening
07/18/11
Examples of Comprehensive Projects
 Industrial processes
 Larger custom compressed air projects incorporating multiple ECMs
 Complex HVAC projects
 Combining lighting with lighting controls under one application by calculating weighted
average measure life
Benefits of Comprehensive Analysis
 Flexibility to combine measures and encourage customers to adapt multiple measures
with single application process
 Ability to offer incentive on marginal measures when combined with other more lucrative
measures
 Streamlined application process
 Potential to capture larger magnitude of energy savings
17
18
NG Upstate NY (UNY) C&I Sales Team
Commercial Energy Consultants (CEC) – Sales
UNY –All Regions
CEC/Sales Manager
- UNY
Eastern Region
County
Albany *
Albany *
Schoharie
Otsego
Rensselaer
Columbia
Schenectady
Montgomery
Fulton
Saratoga
Warren
Washington
Hamilton
Essex
Hospitals
* split by zip codes
Central Region
County
Oneida
Herkimer
Onondaga *
Onondaga *
Oswego
Cortland
Madison
Lewis
Jefferson
St. Lawrence
Franklin
CEC/Sales Mgr.
Laurie Poltynski
Work Phone
518-433-3797
Cell Phone
518-744-2681
Email
CEC/Sales Rep
Dan Merrill
Jim Baker
Dan Merrill
Dan Merrill
Jim Baker
Jim Baker
Nat Hancock
Nat Hancock
Nat Hancock
Khaled Halabi
Khaled Halabi
Khaled Halabi
Khaled Halabi
Khaled Halabi
Nat Hancock
Work Phone
518-433-3741
518-433-3505
518-433-3741
518-433-3741
518-433-3505
518-433-3505
518-433-3795
518-433-3795
518-433-3795
518-433-3701
518-433-3701
518-433-3701
518-433-3701
518-433-3701
518-433-3795
Cell Phone
518-810-6161
518-421-6291
518-810-6161
518-810-6161
518-421-6291
518-421-6291
518-495-6198
518-495-6198
518-495-6198
518-514-8137
518-514-8137
518-514-8137
518-514-8137
518-514-8137
518-495-6198
Email
CEC/Sales Rep
TBD
TBD
Amy Dickerson
George Baier
Amy Dickerson
George Baier
George Baier
Becky Badalato
Becky Badalato
Becky Badalato
Becky Badalato
Work Phone
Cell Phone
Email
315-452-7509
315-452-7742
315-452-7509
315-452-7742
315-452-7742
315-785-7227
315-785-7227
315-785-7227
315-785-7227
315-744-2743
315-317-9286
315-744-2743
315-317-9286
315-317-9286
315-783-4927
315-783-4927
315-783-4927
315-783-4927
amy.dickerson@nationalgrid.com
george.baier@nationalgrid.com
amy.dickerson@nationalgrid.com
george.baier@nationalgrid.com
george.baier@nationalgrid.com
becky.badalato@nationalgrid.com
becky.badalato@nationalgrid.com
becky.badalato@nationalgrid.com
becky.badalato@nationalgrid.com
CEC/Sales Rep
Dan Keating
Work Phone
716-831-7795
Cell Phone
716-544-5258
Email
Jon Nickerson
TBD
716-831-7735
716-831-7795
716-955-9472
716-544-5258
jonathan.nickerson@nationalgrid.com
daniel.keating@nationalgrid.com
Western Region
County
Erie (Zip Codes 14060,
14201-14215)
Erie (Zip Code 14216 +)
Monroe
08/09/2013
1 of 2
19
laura.poltynski@nationalgrid.com
daniel.merrill@nationalgrid.com
james.baker@nationalgrid.com
daniel.merrill@nationalgrid.com
daniel.merrill@nationalgrid.com
james.baker@nationalgrid.com
james.baker@nationalgrid.com
nathaniel.hancock@nationalgrid.com
nathaniel.hancock@nationalgrid.com
nathaniel.hancock@nationalgrid.com
khaled.halabi@nationalgrid.com
khaled.halabi@nationalgrid.com
khaled.halabi@nationalgrid.com
khaled.halabi@nationalgrid.com
khaled.halabi@nationalgrid.com
nathaniel.hancock@nationalgrid.com
daniel.keating@nationalgrid.com
Western Region - continued
County
CEC/Sales Rep
Wyoming
TBD
Livingston
TBD
Ontario
TBD
Chautauqua
Jon Nickerson
Cattaraugus
Jon Nickerson
Allegany
Jon Nickerson
Niagara
Kevin
McQuiggan
Genesee
TBD
Orleans
TBD
Erie (Zip Code 14150)
Kevin
McQuiggan
Work Phone
716-831-7795
716-831-7795
716-831-7795
716-831-7735
716-831-7735
716-831-7735
716-831-7754
Cell Phone
716-544-5258
716-544-5258
716-544-5258
716-955-9472
716-955-9472
716-955-9472
716-445-8759
Email
716-831-7754
716-831-7754
716-831-7754
716-445-8759
716-445-8759
716-445-8759
kevin.mcquiggan@nationalgrid.com
kevin.mcquiggan@nationalgrid.com
kevin.mcquiggan@nationalgrid.com
daniel.keating@nationalgrid.com
daniel.keating@nationalgrid.com
daniel.keating@nationalgrid.com
jonathan.nickerson@nationalgrid.com
jonathan.nickerson@nationalgrid.com
jonathan.nickerson@nationalgrid.com
kevin.mcquiggan@nationalgrid.com
UNY Technical Support Consultants (TSC)
Title and Region
TSC Manager – NY
State
Capital/Northeast
Capital/Northeast
Central/Northern/
Notes:Valley
Mohawk
Frontier/Western
Frontier/Western
National Accounts
Name
Paul Gister
Work Phone
716-831-7753
Cell Phone
716-574-3363
Email
TBD
TBD
Michael Miller
315-452-7760
315-569-3809
michael.miller@nationalgrid.com
Martin Hudi
Carl Forester
716-831-7755
716-831-7128
716-517-5503
716-868-6426
martin.hudi@nationalgrid.com
carl.forster@us.ngrid.com
paul.gister@nationalgrid.com
Energy Solution Partner (ESP) Program
Title and Region
ESP Hotline
Program Mgr. - UNY
ESP Business &
Technical Support UNY
Name
Patrick Donnelly
Work Phone
(866) 340-5181
Cell Phone
N/A
Email
energysolutionspartneruny@nationalgrid.com
Eugene Hickok
518-761-5905
518-491-1348
eugene.hickok@nationalgrid.com
Strategic Energy Management Planning (SEMP).
Title and Region
SEMP Manager UNY
08/09/2013
Name
Thomas Higgins
Work Phone
315-798-5158
2 of 2
20
Cell Phone
315-723-2199
Email
thomas.higgins@nationalgrid.com
National Grid
UNY - Eastern Division EE Study Check List
Project Name:
CEC/AE Name:
Base
Building
Metered kWh Yr
Peak kW
Metered Therms Yr
Building Ft2
Building Use
Post
SS and TA Study EEM Checklist (X if complete)
The Checklist is to reduce the review time and to be sure all of NG's and the customer's opportunities have been addressed.
EEM
Notes
Gas (HEHE)
HE Furnaces
Condensing UH
Infrared Heaters
Steam Boilers
HE Hydronic Boilers
Condensing Boilers
Indirect Fired Water Heaters
Setback thermostats
Boiler reset controls
Pipe Insulation
Duct Insulation
Envelope Insulation
Windows
Commercial Cooking
Kitchen Exhaust/MUA
Steam Traps
Steam Trap Survey
Combustion Controls
Integrated Water Heater/Non-Condensing Boilers
Other
Notes
Electric
VFDs
Motors
Lighting
Lighting Controls
Lighting HVAC (Cooling) savings and Heating
penalty
EMS (Custom or CEX)
DCV
HW, CW CHW reset
Hotel Occupancy Sensors
Vending Misers
Air Compressor
Compressed Air Leaks/Abuses
Other
Notes
Other
Fuel Switching - Oil to Gas (GPM)
Increased Gas usage
Electric load changes
Data Centers
Process
Screen Incremental Options - TOR (D2)
Package Measures w/ a Failed Measure >.85 BC
Other
C:\Documents and Settings\hickoke\My Documents\1 National Grid\NG Tech Info\Engineering Docs 04 11\TR SS TA
04/10/2012, 1:49 PM
EEM Checklist 03 21 12.xls
21
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