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THE RAMIFICATIONS OF A DELAY IN THE
NATIONAL HIGH-LEVEL WASTE REPOSITORY PROGRAM
by
SCOTT ALAN VANCE
B.S. Gen. Engr., Idaho State University
(1986)
SUBMITTED TO THE DEPARTMENT OF
NUCLEAR ENGINEERING
IN PARTIAL FULFILLMENT OF THE REQUIREMENTS
FOR THE DEGREES OF
MASTER OF SCIENCE IN NUCLEAR ENGINEERING
and
MASTER OF SCIENCE IN TECHNOLOGY AND POLICY
at the
MASSACHUSETTS INSTITUTE OF TECHNOLOGY
May, 1988
© Scott Alan Vance, 1988
The author hereby grants to MIT permission to reproduce and to
distribute copies of this thesis document in whole or in part.
Signature of Author
pepaitment of Nuclear Engineering
May, 1988
Certified by
Prbfe4ý&r Richard Lester, Nuclear Engineering
Thesis Supervisor
Certified by
Professor Richard de Neufvfyle, Civil Engineering
Chairman, Technology and Policy Program
Accepted by
Accepted by
M.KAICKU?-•s-IS.TW7T
JUL 28 1988
Chairman, Department Committee on Graduate Students
ARCHIVES
LIBRARIES
Professor Allan Henry
THE RAMIFICATIONS OF A DELAY IN THE
NATIONAL HIGH-LEVEL WASTE REPOSITORY PROGRAM
by
SCOTT ALAN VANCE
Submitted to the Department of Nuclear Engineering
on May 6, 1988 in partial fulfillment of the
requirements for the Degrees of Master of Science in
Nuclear Engineering
and
Technology and Policy
ABSTRACT
This thesis examines the ramifications to the nuclear power industry if a
national high-level waste repository is not operational by 1998 as mandated
in the Nuclear Waste Policy Act.
The principal effect of a delay examined here is the potential shortage of
spent fuel storage. In order to assess this impact, a computer model of a
nuclear utility was developed. Data for 107 U.S. reactors was then entered
into the model to assess the impact for individual facilities. This model
estimates that a delay to the year 2003 will cost industry between $21.4 million and $35.8 million in 1988 dollars. Similarly, a delay to the year 2010
is estimated to have between a $85.4 million and $142.4 million impact.
Four other potential effects of a delay on industry are also examined: the
potential inadequacy of the Nuclear Waste Fund; an increased difficulty in
obtaining licenses from the Nuclear Regulatory Commission; increased friction
between industry and the Department of Energy; and a decline in public acceptance of nuclear power.
This thesis also presents a framework for developing a policy to deal with
the potential effects of a delay.
An argument is made for a policy which
includes anticipation, participation, and education.
Thesis Supervisor:
Title:
Dr. Richard Lester
Professor, Nuclear Engineering
ACKNOWLEDGEMENTS
Many people assisted in the writing of this thesis, either directly or
indirectly. While I appreciate all of the help received, I want to explicitly thank a few of those who went out of their way to ensure that this thesis
would be completed.
I cannot adequately express my gratitude to Professor Richard Lester for
his assistance during the writing of this thesis. His willingness to share
knowledge and offer suggestions was very much appreciated.
Many thanks as well to Professor Dan Metlay, Department of Political
Science, for reading and offering his thoughts on this thesis.
This thesis was partially supported by Oak Ridge Associated University's
Radioactive Waste Management Fellowship.
Completing this thesis would have been impossible if not for the unquestioning help from my wife, Debbie. When completion looked impossible, she
just kept typing. I cannot possibly repay her for her encouragement.
Finally, I thank God, my refuge and strength, a very present help in
trouble.
TABLE OF CONTENTS
Title Page
1
Abstract
2
Acknowledgements
3
List of Figures
7
List of Tables
8
Introduction
9
Chapter 1: The Nuclear Power Production Environment
1.1 The Utility
1.2 The Congress
1.3 The Nuclear Regulatory Commission
1.4 The Department of Energy
1.5 The Public
11
12
13
15
17
20
Chapter 2: The National High-Level Radioactive Waste Repository
2.1 The Nuclear Waste Policy Act of 1982
2.2 The Amendments of 1987
2.3 The Definition and Likelihood of a Delay
22
24
26
28
Chapter 3: The Effects of a Delay
3.1 The Creation of Deficit Storage
3.2 The Nuclear Waste Fund
3.3 The Nuclear Regulatory Commission
3.4 The Department of Energy
3.5 The Public
32
33
57
60
60
62
Chapter 4: Dealing With the Effects of a Delay
4.1 Anticipation
4.2 Participation
4.3 Education
4.4 A Framework for Policy Development
4.5 Conclusions
63
63
68
69
71
74
Suggestions for Future Work
76
Appendix A:
Reactors
78
Appendix B:
Actual and Predicted Facility-Specific Spent Fuel
Discharge
80
Appendix C:
Facility-Specific Projected Repository Waste
Acceptance (InAssemblies)
128
Appendix D:
Decommissioning Dates
131
TABLE OF CONTENTS (CONTINUED)
Appendix E.1:
Facility-Specific 1988 Spent Fuel Storage Capacity
(InAssemblies)
133
Appendix E.2:
Predicted Facility-Specific Required Spent Fuel
Storage Capacity for a Repository Opening Date
of 1998 (InAssemblies)
135
Appendix F:
Facility-Specific Projected Cumulative Discharges, 1998-2020 (InAssemblies)
137
Appendix G:
Fortran Program:
140
Appendix H.1:
Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 1998
144
Appendix H.2:
Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 1999
146
Appendix H.3:
Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2000
148
Appendix H.4:
Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2001
151
Appendix H.5:
Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2002
154
Appendix H.6: Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2003
157
Appendix H.7:
Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2004
161
Appendix H.8: Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2005
166
Appendix H.9:
Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2006
171
Appendix H.10: Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2007
177
Appendix H.11: Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2008
184
Appendix H.12: Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2009
192
"XS"
TABLE OF CONTENTS (CONTINUED)
Appendix H.13: Output From Program "XS": Facilities With
Deficit Storage, Repository Opening in 2010
201
Appendix I.1:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 1999 (InAssemblies)
211
Appendix 1.2:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2000 (In Assemblies)
214
Appendix 1.3:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2001 (InAssemblies)
217
Appendix 1.4:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2002 (InAssemblies)
220
Appendix 1.5:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2003 (In Assemblies)
223
Appendix 1.6:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2004 (InAssemblies)
226
Appendix 1.7:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2005 (InAssemblies)
229
Appendix 1.8:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2006 (InAssemblies)
232
Appendix 1.9:
Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2007 (InAssemblies)
235
Appendix I.10: Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2008 (InAssemblies)
238
Appendix 1.11: Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2009 (InAssemblies)
241
Appendix 1.12: Facility-Specific Cumulative Deficit Storage For
a Repository Opening in 2010 (InAssemblies)
244
Appendix J.1:
2003 Deficit Storage Profiles
247
Appendix J.2:
2010 Deficit Storage Profiles
264
Appendix K:
Average KG/Assembly Ratios
297
Bibliography
299
LIST OF FIGURES
Figure 1.1
A Utility's Position in the Nuclear Power
Generation Environment
Figure 1.2
Congress' Position in the Nuclear Power
Generation Environment
Figure 1.3
The NCR's Position in the Nuclear Power
Generation Environment
Figure 1.4
The DOE's Position in the Nuclear Power
Generation Environment
Figure 1.5
The Public's Position in the Nuclear Power
Generation Environment
Figure 1.6
The Nuclear Power Generation Environment
LIST OF TABLES
Table 3.1
Spent-Fuel Acceptance Schedule at Repository
Table 3.2
Economic Impact of Deficit Storage, 1988
Dollars
Table 3.3
Estimated Economic Impact of Deficit Storage
on the U.S. Nuclear Industry for a Given Year
of Repository Operation
INTRODUCTION
The first commercial nuclear power was generated in the United States in
1956.
Today, over 100 nuclear facilities are supplying approximately 15% of
the total electrical demand in this country.
As with any method of power
production, nuclear energy cannot be tapped without the generation of waste
products.
In the case of nuclear power plants, this waste includes fuel
assemblies which have been used in the reactor, called spent nuclear fuel.
After over thirty years of electrical generation by nuclear power, no method
of permanently disposing of the high-level radioactive waste that the industry generates yet exists.
Since the beginning of the commercial nuclear power industry, an understanding existed that spent fuel would have to be disposed of in a manner
that no other cZtegory of waste was subject to.
Since an appropriate method
of disposal was not yet determined, facilities were built to store the spent
fuel safely on site until a satisfactory permanent disposal method could be
built.
Encouraged to invest in nuclear power, industry continues to wait for
an appropriate method of disposal to arrive.
The construction of a national repository for high-level waste finally
looked inevitable in 1982.
In that year, Congress passed the Nuclear Waste
Policy Act, which set a course of action for the United States in developing
permanent disposal for industry's spent fuel.
A particular provision of this
Act indicated that the government would provide disposal facilities for this
waste by 1998.
commitment.
Six years later, Congress appears unable to fulfill its
This thesis examines the effects on utilities if a repository is
not available by the year 1998.
10
Since 1956, the environment in which a nuclear facility operates has
evolved into a complex interaction of various government agencies and the
public.
A better understanding of the effects of a delay in the national
high-level waste repository can be gained if
understood.
these interactions are first
Further, to understand the impact of a delay on the ability of
a utility to meet its objectives, an understanding of what a nuclear facility's objectives are is needed.
Chapter 1 introduces the various actors in
the nuclear power generation environment and explains how each has separate
objectives,
which at times conflict with and at other times complement a
utility's ability to carry out its goals.
Chapter 2 provides the background to the Nuclear Waste Policy Act and to
the amendments which were passed in December 1987.
Included in this chapter
is a consideration of the likelihood of a delay and the assumptions regarding
it which are used in this analysis.
Five potential effects of a delay are examined in Chapter 3. Of these,
the impact of "deficit storage," storage which utilities must add due to a
delay, is the most thoroughly investigated.
Other effects considered include
the potential inadequacy of the Nuclear Waste Fund, an increased difficulty
in obtaining various licenses from the Nuclear Regulatory Commission, an
increase in friction between utilities and the Department of Energy, and a
decreased acceptance of nuclear power by the general public.
Finally, Chapter 4 offers a guideline for developing a policy to deal
with the effects of a delay.
The chapter explains that a single, specific
policy cannot be developed which would suffice for each individual utility.
The argument is introduced, however, that any policy which is developed must
include anticipation, participation, and education.
CHAPTER 1
THE NUCLEAR POWER PRODUCTION ENVIRONMENT
If an understanding of the effects of a delay in the establishment of a
high-level waste repository is desired, an understanding of the nuclear power
production environment in the absence of a delay is first necessary.
This
chapter will discuss the environment in which nuclear utilities operate. The
description is not intended to be a comprehensive model of the environment in
which every electric utility operates but is instead a technology-specific
picture of the particular and unique factors which influence the environment
in which a nuclear facility operates.
A nuclear facility operates within the constraints and expectations of
an environment that is shaped by several broad factors. The most significant
are the objectives of the utility itself, the regulatory framework surrounding nuclear power production, the technology available to the utility and the
acceptance of that technology by the public. These factors are manifested by
the actions of the utility itself, the United States Congress (Congress), the
Nuclear Regulatory Commission (NRC),
public.
the Department of Energy (DOE)
and the
The specific way in which each of these actors influences the en-
vironment surrounding nuclear power generation will be discussed below.
State and local governments can also influence the environment in which
a utility operates;
however, since the involvement of these entities is
generally a consequence of either federal regulation or public concern, their
influence can generally be traced back to one of the main actors.
For this
discussion, then, the environment will be defined in terms of the objectives
of the utility, Congress, the NRC, the DOE, and the public.
1.1
The Utility
A utility has three main objectives:
1.
To
to
2. To
3. To
provide adequate, reliable electricity
its customers.
operate inexpensively.
operate safely.
Figure 1.1 illustrates the position of a utility in its environment, with the
various inputs shown above the utility and its own objectives shown below.
LEGISLATION
REGULATIONS
TECHNOLOGY
PUBLIC OPINION
UTILITIES
PRODUCTION OBJECTIVES:
1. Adequate and reliable
2. Economical
3. Safe
FIGURE 1.1
A Utility's Position in the Nuclear Power Generation Environment
All of these objectives are inter-related:
accidents are not only a
threat to safety, they are also expensive and threaten reliability;
if ade-
quate electricity can not be generated at the utility's own facilities, it
must be purchased from outside generators at a higher cost, and so on.
The
inter-relation of these objectives shapes and defines how a utility responds
to its environment.
Interestingly, the objective of "making money," per se, is not a prime
objective of a utility.
Because they are regulated, utilities are allowed to
garnish a "reasonable" return on their operations. Unlike non-monopoly busi-
13
nesses, utilities are not forced to remain competitive.
They must simply
justify their operational costs to the regulatory authorities and are thus
ensured a margin of return.
Once this return is set, their objective is to
generate electricity at a cost equal to or lower than the cost that was used
to calculate this return.
The time scale that is important to utilities is another factor that
shapes the environment in which a utility operates.
Decisions which were
made minutes ago can effect a utility as much as decisions which were made
decades ago.
And, since the sources of electricity cannot be added to or
replaced on a time scale of less than approximately 10 years, utilities must
trust their projections of demand and supply, even though they know that the
only projection of which they can be certain is that their forecasts will be
incorrect.
Inherent in these objectives are the requirements to meet operation
regulations and to maintain public acceptance.
These two objectives will be
discussed in sections 1.3 and 1.5, respectively.
These are not considered
in the same class as the above objectives, however, since a failure to comply
with regulations or enjoy public acceptance can make providing inexpensive
and adequate electricity to customers a moot point.
1.2 The Congress
Congress can shape the environment in which the nuclear utilities operate in two separate ways.
It can enact laws which shape this environment
directly or it can empower the NRC or the DOE to carry through with specific
legislative goals.
Congress' direct influence on utilities is not as pervasive as is its
14
daily, indirect influence through the NRC or the DOE, but it can be just as
In practice, the issues in which Congress gets directly involved
important.
with utilities are those issues which cannot be solved outside of the political arena.
One of the best examples of this during 1987-88 has been the
reconsideration of the Price-Anderson Act.
Originally passed in 1957, the
Act was designed to provide liability insurance for the nuclear industry. At
the time, Congress believed that private insurance companies would be unable
or unwilling to provide adequate insurance coverage for the commercial nuclear industry, due to the lack of operating experience and uncertainty associated with the new technology.
The act was designed to remove this road-
block to the development of commercial nuclear power by providing governmentbacked insurance.
The original Price-Anderson Act had a thirty year life
span, which forced Congress again to consider the question in 1987.
Late
that year, the House of Representatives passed legislation to renew the Act,
and in March of 1988 a similar bill was passed in the Senate. A conference
committee to work out the slight differences between the two bills is likely
to complete work sometime in mid-1988.
The indirect influence on the nuclear power production environment which
Congress wields is expressed through its legislative control of the NRC and
the DOE.
The specific role of each of these entities will be discussed
below.
Figure 1.2 illustrates the pathways by which Congress influences nuclear
utilities.
CONGRESS-,
"PUBLIC OPINION
NRC
UTILITIES
FIGURE 1.2
Congress' Position in the Nuclear Power Generation Environment
1.3 The Nuclear Regulatory Commission
The NRC is a descendant of the Atomic Energy Commission (AEC), the
original agency which regulated the commercial nuclear power industry.
The nation's first Atomic Energy Act, passed in 1946, established the
Atomic Energy Commission (AEC).
This agency was given the responsibility
both to develop and regulate the peaceful uses of atomic energy, including
everything from biology to industry.
In addition to military uses, the AEC
was given responsibility over non-military uses of radiation.
The non-military uses of nuclear power or radioactive isotopes were
severely limited, however, due to a provision of the Atomic Energy Act which
stated that any facility which handled or produced radioactive materials had
to be government owned.
In order to ensure the continued development of
civilian nuclear power and also to ensure that a Federal agency would remain
in control of all radiation-using or -producing facilities, Congress amended
the Atomic Energy Act in 1954 to allow for the establishment and regulation
of privately owned facilities.
This amendment opened the door for the com-
mercial nuclear industry in the United States.
As the industry grew, more and more concern developed over the ability
16
of the AEC both to promote and regulate nuclear power.
Largely in response
to this concern, the AEC was abolished in 1974 and replaced by the NRC and
the Energy Research and Development Agency (ERDA).
ERDA's directive was to replace the AEC's research programs.
In addi-
tion, ERDA was to conduct research on non-nuclear energy systems as well.
The NRC, on the other hand, was established to take over the regulatory
functions of the AEC.
It was to certify the safety of new facilities by a
licensing process, and also to regulate existing facilities to ensure the
prompt reporting, repair, and penalty of any facility which operated in a
manner which posed a public safety hazard.
In recent years, the NRC has fallen under much the same criticism as the
AEC.
Some critics claim that the agency has forgotten that its prime motive
is regulation and now seeks to promote nuclear energy more than regulate it.
In response to this criticism, the Nuclear Regulation Subcommittee of the
Senate Committee on Environment and Public Works introduced a bill to the
full committee in February 1988 that would replace the NRC with the Nuclear
Safety Agency.
Whether or not the legislation will eventually be passed and
what effects its passage would have on the nuclear power production environment are uncertain.
Therefore, this discussion will assume that the basic
structure of the NRC will remain intact for the time period in question.
The NRC is composed of a five-member Board of Commissioners, of which a
maximum of three may be of the same political party. This Commission has the
final say in the regulation of existing facilities and the licensing of new
ones.
Supporting the Commission is an extensive staff which is separated
into various offices, each of which deals with a separate regulatory issue.
These offices receive feedback from the regional NRC offices, which in turn
17
receive information on plant compliance and operation from the individual NRC
officers who are permanently present at each nuclear plant.
Ideally, the NRC creates an environment in which the objectives of the
utilities are not impaired and yet the public health and safety are mainSupervision and licensing is accomplished through the creation and
tained.
enforcement of regulations.
Enforcement includes everything from reprimands
to monetary fines to the closure of a facility. The relative position of the
NRC in the nuclear power generation environment is illustrated in Figure 1.3.
Notice that the regulations which the NRC issues are shaped by the wishes of
Congress, the state of public opinion, and the available technology, including the performance and capabilities of the utilities.
CONGRESS
[C OPINION
I
:CHNOLOGY
REGULATIONS
FIGURE 1.3
The NRC's Position in the Nuclear Power Generation Environment
1.3
The Department of Energy
Like the NRC, the Department of Energy (DOE) is a descendant of the
Atomic Energy Commission, although it appeared three years after the demise
of the AEC.
As discussed above, *the Energy Research and Development Agency (ERDA)
was created in 1974 in response to a rising concern over the legitimacy of
the AEC.
Another factor which led to the development of the ERDA was the
18
fragmented nature of energy research during the 1973-1974 oil embargo.
The
Ford Administration found the embargo nearly impossible to respond to, since
the various agencies involved in energy research were unable to develop a
coherent energy policy.
Within a few years, the continued difficulty of addressing energy issues
on a national basis was evidence that the creation of ERDA was an inadequate
step toward resolving the problem of a coherent energy program in the United
States.
Consequently, in 1977 President Carter formed the Department of
Energy.
The DOE quickly assumed the responsibilities of a variety of existing
agencies, organizing around five main categories of activities.
First, the
DOE was to focus on energy research, development, and demonstration. As with
ERDA, this included research in any energy source, not just nuclear. Secondly, the DOE assumed ERDA's responsibilities in the nation's defense program,
a program concerned with the development, production, and demonstration of
nuclear weapons.
Thirdly, the DOE formed the Economic Regulatory Administra-
tion, which was charged with regulating the petroleum industry.
With the
deregulation of that industry in 1981, the importance of this branch of the
DOE was greatly diminished.
The fourth area of responsibility was to take
control of those functions which had previously been handled by the Federal
Power Commission.
The DOE established the Federal Energy Regulatory Commis-
sion, which regulates the price of natural gas and electricity as well as the
interstate transmission of gas, oil, and electricity.
Finally, the DOE was
charged with the management of the Energy Information Agency, which was
established solely for the purpose of gathering, tracking, and predicting
national energy statistics.
19
With respect to nuclear utilities, the DOE was intended to provide
technical support by conducting research and administering various nuclearrelated programs.
Like the AEC before it, DOE research and development has
generally been of a longer term nature than has been carried out by industry.
During the first few years of its existence, a large portion of the DOE's
budget was for R&D programs in various reactor designs, and this remains a
principal function.
The fiscal year 1989 budget request includes almost $4
billion for energy research and development, with advanced reactor research
and development and advanced nuclear systems comprising $89 million of this
request.
The DOE is acted upon and acts itself as illustrated in Figure 1.4. As
in the case of the NRC, the DOE must be aware of both the wishes of Congress
and the attitude of the public in determining the feasible solutions to
industry's needs.
CONGRESS
NRC CONSULTINGc
---
>DOE<
PUBLIC OPINION
TECHNICAL RESEARCH
& ADMINISTRATION
FIGURE 1.4
The DOE's Position in the Nuclear Power Generation Environment
Figure 1.4 represents the characteristic interaction patterns of the DOE
mentioned above;
the DOE acts as a consultant to the NRC and as a research
organization for industry, informing industry of options it has in meeting
NRC regulations as well as its own objectives.
The DOE also keeps Congress
informed of the state of technology and of developments relating to nuclear
20
energy.
In the nuclear power generation environment of today, however, the
most significant function of the DOE is its responsibility to take charge of
the radioactive waste which the facilities generate.
This will be discussed
further in Chapter 2.
1.4 The Public
While not strictly part of the regulatory framework, the general public
greatly influences the daily operations of a nuclear utility. The actions of
the public have been the most important influence on the utilities' operating
environment in some cases.
Possibly the most important reason for the public's ability to influence
the nuclear power generation environment is its ability to interact with any
of the other entities in the utilities' environment.
Uninhibited by formal
separations, public groups can influence decisions made by any one of the
actors, and thus shape the utilities' environment from a variety of perspectives.
This ability is illustrated in Figure 1.5.
CONGRESS
NRC'
PUBLIC
DOE
UTILITIES
FIGURE 1.5
The Public's Position in the Nuclear Power Generation Environment
Each of these actors brings to the environment a separate set of goals
and unique methods of accomplishing them.
environment that is delicate and strained.
Together, they operate in an
Changes in the environment are
21
produced by actions of any or all of the actors, and ultimately affect the
ability of the utility to meet its own objectives.
The entire generation
environment as described above is illustrated in Figure 1.6.
This thesis
will investigate changes in this environment that will be caused by a delay
in the national high-level waste repository.
Chapter 2 will discuss the
history of the repository and describe what is meant by "delay."
rnUrnreCC
nr
KtbULAIIUNS
Kt~StKLM
lTnKI
YUBLIL UYINIUN
& ADMINISTRATION
UTILITIES
PRODUCTION OBJECTIVES:
1. Adequate
2. Economical
3. Safe
FIGURE 1.6
The Nuclear Power Generation Environment
CHAPTER 2
THE NATIONAL HIGH-LEVEL RADIOACTIVE WASTE REPOSITORY
Luther Carter has called nuclear power "a technology ahead of itself,"'
and argues that the technology was developed long before essential questions
about its ramifications were answered.
example of high-level waste disposal.
In particular, Carter offers the
While radioactive waste created chal-
lenges for disposal that no one knew how to deal with, the AEC continued to
promote a commercial industry.
disposal was ignored;
This is not to say that the issue of waste
several different experiments in waste isolation were
supported by the AEC between 1957 and 1965.
Included in these experiments
were several which pointed out important considerations for an eventual
permanent facility and several which proved to be disasters.
In both cases,
lessons were learned which would eventually aid in the development of a
coherent waste policy. The problem was that instead of confronting the issue
of an eventual need to dispose permanently of some form of high-level waste
before the commercial industry began generating it,the AEC focused on intermediate steps and encouraged the industry to establish itself.
The most
significant of these intermediate steps was spent fuel reprocessing.
In the beginnings of the commercial nuclear industry, the prevailing
assumption was that all spent fuel would be reprocessed, due to a scarcity of
natural uranium.
The recovered uranium and plutonium would either be re-
used in reactors or for military purposes.
Eager to cash in on this develop-
ing market, the state of New York established a reprocessing site at West
1Carter,
Luther J.; Nuclear Imperatives and Public Trust: Dealing With
Radioactive Waste;
(Washington, D.C.:
Resources for the Future, 1987)
Chapter 2.
23
Valley which was to be administered by a private corporation, Nuclear Fuel
Services (NFS).
Neither the AEC nor NFS would take responsibility for the
high-level waste which would be generated at the facility, so New York agreed
to.
The cost of disposal was to be covered by a perpetual care fund which
NFS would establish.
Due to the fact that uranium proved to be far from a scarce resource,
the West Valley facility was doomed from the start.
The reprocessing market
This fact was probably a very fortunate
dried up as fast as it had begun.
occurrence, however, due to the multitude of problems which the West Valley
facility experienced during its six years of operation.
A precise account of
the troubles at the West Valley facility can be found in Carter's book and
elsewhere. The most important lesson learned from the experience was that
individual states were woefully inadequate and the nation completely unprepared to deal with radioactive waste.
In November of 1970, thirteen years after the first commercial reactor
had begun operation, the Atomic Energy Commission released an official policy
for commercial high-level waste disposal.
As Carter again explains in his
book, this policy proved to be so flawed that it was unworkable.
One year
later, the AEC announced that it was pursuing a new program, known as a Retrievable Surface Storage Facility (RSSF).
However,
this proposal would
prove to be as unacceptable as AEC's earlier policy, and the program was
completely abandoned in 1975.
among the scientific community.
The AEC was losing credibility fast, even
As discussed in Chapter 1, the AEC was-
disbanded shortly thereafter.
The demise of the AEC did not halt the search for the solution to the
high-level waste problem.
In 1975, ERDA released the National Waste Terminal
24
Storage (NWTS) plan, which was designed to investigate several possible sites
for an underground waste disposal facility.
operational by the year 2000.
ERDA planned to have the site
The program met little approval from states,
however, and with the demise of ERDA, the NWTS program also faded.
President Carter formalized the policy of Federal ownership of commercial high-level waste in 1977 by declaring that the Government would take
title to spent nuclear fuel.
In support of this position, he formed the
Interagency Review Group (IRG) to review the issue of waste disposal and
develop a concrete program proposal.
After a year of study, the IRG recom-
mended that an underground repository be built and operational by 1992-1995
under the leadership of the newly formed Department of Energy. Although this
recommendation was made in 1978, no real progress was made in implementing it
until 1982.
1.2 The Nuclear Waste Policy Act of 1982
On January 7, 1983 President Reagan signed into law the most ambitious
step the Federal government had ever taken in regards to the disposal of
high-level nuclear waste.
(NWPA),
Known as the Nuclear Waste Policy Act of 1982
this piece of legislation finally set a course of action for the
development and eventual operation of a national repository.
Following the recommendation of the Interagency Review Group, the NWPA
established the DOE as the agency to develop the repository.
The Act es-
tablished the Office of Civilian Radioactive Waste Management (OCRWM) within
the DOE, whose sole responsibility would be to develop a viable site.
Designed to expedite the development process, the NWPA established
numerous guidelines and timetables for OCRWM to follow.
For example, the
25
NWPA established that OCRWM should investigate numerous potential sites for
the first repository, make recommendations to the President, and then intensively investigate (or "characterize") the three sites which the administration approved.
Within three years of selecting the first repository site,
OCRWM was to select a second site.
In this way, no one state would be forced
to accept all of the waste generated.
In order to ensure that this provision
was met, the NWPA stipulated that no more than 70,000 tonnes (metric tons) of
spent fuel could be placed in the first repository before the second was
operational.
While this was more waste than the reactors which were operat-
ing at the time were expected to produce, it was less than the 100,000 tonnes
which was expected to be produced if all of the reactors which were then
under construction were completed.
While the NWPA clearly indicated that disposal was the goal that the
OCRWM should work toward, it did leave the option of long term storage open
by requiring the investigation of a Monitored Retrievable Storage (MRS)
facility.
The precise role of an MRS facility in the overall waste program
was not addressed, however.
The NWPA also established a firm schedule for the entire repository
program.
According to the Act, the DOE was to begin accepting waste to the
national repository no later than January 31, 1998.
The establishment of a
date was an important provision of the Act, since prior programs had lacked
the force of law and thus were easily delayed.
The NWPA was a comprehensive piece of legislation and included numerous
other provisions which were designed to ensure the completion of the program
as planned.
While a complete discussion of the NWPA is not necessary here,
it is important to note that this was an extensive Act which was designed to
26
overcome any barriers to the eventual construction of a national repository.
Unfortunately, the Act was not comprehensive enough to overcome the political
barriers that the program met from the moment of its passage and even before.
Realizing this, Congress again addressed the issue of a national repository
program in 1987.
2.2 The Amendments of 1987
As carefully as Congress had considered the NWPA,
it had not foreseen
the intense opposition that the OCRWM would meet in implementing the plan.
States being considered for the first repository desperately battled to be
removed from contention.
equal resistance.
Efforts to establish a second site were met with
The NWPA stipulated that the candidates for the second
repository could not be located at any of the sites considered for the first.
Due to the process which was used to establish the first candidate site, this
effectively required that the second repository be located East of the Mississippi River.
site that it
decades,
if
indefinitely.
The DOE met so much resistance in its search for a second
announced in 1986 that a second site would not be needed for
ever, and work on selecting the second site was being delayed
Attempts to locate a site for an MRS were no more successful.
With growing resistance on every front, Congress realized that it would
be necessary for the Government to make the political decisions and leave
only the technical decisions for the OCRWM.
This was easier said than done,
however, and efforts to amend the NWPA were met with strong resistance even
from within Congress.
More than once it looked as though the efforts for a
smooth transition from the NWPA to a new program would be impossible.
Late
in December of 1987, Congress finally passed Amendments to- the NWPA that
27
dramatically changed the NWPA and set the national repository program in a
new direction.
While changes brought about by the Amendments were sweeping, none were
more significant than the provision that established the Yucca Mountain,
Nevada site as the first repository site.
Work at other sites under con-
sideration was to be terminated within 90 days, and the OCRWM was to concentrate all of its efforts on characterizing the Nevada site. Only if this
site proves to be unsuitable after intensive investigation will Congress
consider other sites.
The provision of the NWPA which required a second repository was repealed.
The DOE was instructed to report to Congress between 2007 and 2010
as to the need for a second repository.
Until such a time, the Amendments
specifically forbid the OCRWM from investigating alternative sites.
They
were also prohibited from investigating any disposal medium other than tuff
(compacted volcanic ash), which is the geologic formation present at the
Yucca Mountain site.
The proposal submitted by DOE for an MRS facility was revoked. However,
the Amendments provided that a three member commission be established that
will investigate the need for an MRS facility and report to Congress in 1989.
If this commission establishes need, investigation and characterization of an
MRS site can continue.
To sweeten the pill, the Amendments offered financial rewards to Nevada, which will increase to $20 million per year once the repository begins
operation.
Similarly, the Amendments provide that some incentives may also
be established for any states agreeing to site an MRS facility, if it is
approved.
28
The Amendments left the anticipated opening date of the first repository
intact.
As 1998 draws nearer, however, the probability that the timetable
will be met appears less and less likely.
2.3 The Definition and Likelihood of a Delay
The siting, construction, and operation of a national high-level waste
repository will certainly be one of the most challenging waste disposal
projects that has ever been undertaken.
With no world experience in con-
struction of such a facility, a successful prediction by the 1982 Congress of
when a site could be completed in the United States would have been nearly
impossible.
By naming 1998 as the start date, however, Congress established
a time frame to which industry could reference its own storage situation.
Following the passage of the NWPA late in 1982, progress on the repository program was slow.
decreasingly likely.
As time passed, a 1998 opening date was looking
Most observers were not surprised, then, when in June
of 1987 the DOE released the Mission Plan Amendment which it indicated that
the first repository could not be operational before 2003.
While the official announcement of at least a five year delay cannot be
classified as unexpected,
this prediction reaffirmed the uncertainty with
which the industry must contend in assessing its own situation.
There is no
way for industry to assess its spent fuel storage capacity status if there is
no certainty about when the repository will open.
Consequently, continued
uncertainty prevents industry from responding prudently, since it becomes
impossible for them to assess their own needs.
This situation raises sig-
nificant legal questions for industry, since, as discusses in Chapter 1,
industry must always prove that the most prudent actions have been taken. A
29
question of the utmost importance for utilities, then, is how long it will be
before a repository will likely operate.
In an effort to assess the uncertainty associated with the repository
opening date, a panel 2 consisting of technical, governmental, and public
interest experts convened in 1985. The panel focused on the probability of a
repository becoming operational in a given year, given the numerous uncertainties involved in the project.
At this time, the DOE had not yet offi-
cially announced that a 1998 opening date was unlikely.
While individual
experts differed on a predicted opening year, a clear feeling among the panel
as a whole was that there was little hope that a repository would become
operational by 1998.
Assembling all of the predictions offered at the work-
shop yielded the following percentages for the chances of a repository opening in a given year:
1998
2003
2010
2020
2040
0%
5%
50%
85%
99%
The mean value of the predictions was 2011.
This prediction came not only before the DOE announced that 2003 would
be the new target date, but also long before the amendments to the NWPA made
in 1987.
As seen in the last section, the entire repository picture was
changed dramatically by the passage of those amendments.
Eliminating the
need to investigate several sites may conceivably have shaved a few years off
of the entire time needed to construct a repository.
If this is the case,
the above estimates of opening year may be somewhat pessimistic. If the
2Raymond
E. Hoskins; "Probabilistic Assessment of Nuclear Waste Fund
Adequacy"; Technical Report; (Knoxville: University of Tennessee, 1988) p.
2.
30
Nevada site is found to be acceptable, the focus of all efforts on the site
could move the above predictions forward by three or more years.
Even so,
2003 would still be a very optimistic target, with probably less than a 50%
chance of completion according to these experts. A completion date of 2010,
on the other hand, becomes more feasible in light of recent developments.
The increase in probability for the years listed above is contingent on
the Nevada site being acceptable, which is not a given.
In recent months,
some concerned groups have started to question the suitability of the site,
suggesting that the local geology is inappropriate for the conditions that a
repository will require.
Of course there will always be some objections to
the chosen site, regardless of where it is. Objections in themselves cannot
be seen as evidence that the site is in fact not acceptable. However, there
is a possibility that the site will turn out to be unacceptable.
development would certainly delay a repository significantly.
Such a
In addition to
the delay due simply to the fact that no work will have been done on an
alternative site, delays due to the increased difficulty in locating a new
site after such a development will also be significant.
States which oppose
construction within their borders will have learned many lessons by that
time, and the arguments against any chosen location will undoubtedly have
become much more sophisticated. The uncertainty involved in such a situation
makes a prediction of its precise effect on the repository program impossible.
In order to avoid some of the uncertainties such as the one just discussed, a set of simplifying assumptions were made for this thesis regarding
a delay in the repository program.
following assumptions hold:
For the purposes of this discussion, the
1.
After characterization by the DOE and other concerned groups, the
Nevada site is found to be technically and politically acceptable. This is not intended to suggest that the site will be in
all respects technically perfect or that no opposition to the
repository will surface. The assumption is simply that after a
technical analysis is made of the geology and hydrology of the
area, no technical problems are found which render the site
inappropriate, creating an environment in which the DOE is able
to convince concerned groups that the site will meet the guidelines established for use as the first national high-level waste
repository.
2.
Once established as viable, this thesis assumes that progress on
the repository is good, with the facility operational sometime
between 1998 and 2010.
3.
Finally, for the purposes of impact analysis, this discussion
assumes that the 1998 opening date was a "good estimate" when
made, and industry planned for its own needs based on this date.
Each of these assumptions affects the discussion and conclusions of this
thesis, but the method developed for analyzing the effects of a delay would
be just as valid for a longer delay.
CHAPTER 3
EFFECTS OF A DELAY
The effects of a delay to utilities could range from insignificant to
overwhelming.
Before a delay occurs, each utility would be wise to under-
stand the various effects that a delay may have and to institute policies
which will effectively deal with each of them.
In this chapter, I will
identify some of the effects that a delay may have.
In Chapter 4, I will
discuss some options for dealing with each of them.
Before investigating
them, I offer two cautionary notes.
First, the importance of the effects
which will be studied will vary from one utility to the next.
Some effects
may affect a given utility less than is indicated in this discussion while
others may have a greater impact than is suggested.
by no means be exhaustive.
Secondly, the list will
In light of these two shortcomings, I encourage
each utility to continue this investigation on a site-specific basis.
There are several reasons for utilities to consider the effects of a
delay long before the situation arises.
One of the most important reasons is
that if a utility is aware that a given effect will occur, the utility can
take actions which will minimize the impact of that particular effect.
addition, many of the effects are inter-related.
In
Therefore, a response to
one effect may determine the magnitude of another.
The various effects of a delay that a utility can expect will manifest
themselves in various ways.
Some effects may require alterations in fuel
management or plant operation decisions, affecting the utility at the heart
of its operation.
Other effects will act outside of the utility and change
the environment in which it operates.
There are five potential effects of a
33
delay that will be discussed:
(1) the creation of deficit storage, (2) a
negative impact on the Nuclear Waste Fund, (3) a strain on licensing and
regulatory activities with the NRC, (4) an increase in friction between
utilities and the DOE, and (5) a decrease in the public acceptance of nuclear
power as a generation option.
3.1
The Creation of Deficit Storage
In 1982, the DOE effectively relinquished its responsibility to take
charge of any spent nuclear fuel until 1998.
Under the terms of the NWPA,
the DOE would begin to accept spent nuclear fuel in 1998 according to an
approved schedule.
This schedule was based on the maximum amount of spent
fuel that the repository could accept in a given year and the age of the
spent nuclear fuel waiting to be delivered.
Some facilities would be unable
to begin shipping their spent fuel to the facility until several years after
it opened.
The individual utilities would be responsible for any spent
nuclear fuel that was generated up until that time.
If a delay occurs, a spent fuel storage deficit will be created.
For
the remainder of this discussion, an understanding of exactly what is meant
by this term is imperative.
"Deficit storage" will be defined as that stor-
age which must be provided by a facility that would have been unnecessary if
a delay in the repository had not occurred.
This category of storage re-
quires actions by the utilities which they would not otherwise have taken.
As this definition implies, all of the storage that nuclear facilities must
add to present capacity can not be labeled as deficit storage.
When facilities' spent nuclear fuel pools were built, most were not
designed to accommodate all of the spent nuclear fuel that would be generated
34
by the facility over the lifetime of the reactor.
However, the NWPA stated
that the DOE would not be responsible for any of this spent nuclear fuel
until 1998.
Beginning in 1998, the DOE would be responsible for accepting
spent fuel from facilities according to an approved schedule.
This schedule
would not entail acceptance of spent fuel from every facility in the first
year. The result of this was to place the responsibility of providing enough
storage for the spent fuel discharged through a 1998 opening date of the
national repository on the individual utilities.
If the repository does not
open in 1998, however, the increased storage capacity which must be provided
by utilities between the time that the DOE would have begun accepting spent
fuel from the facility had it opened the repository in 1998 and the time that
the fuel is actually accepted is designated as deficit storage.
It is important to recognize that not all nuclear facilities would have
spent fuel accepted by the DOE on the opening year of the repository is
important. This is due to the fact that the repository will be limited as to
the total fuel it can accept in any given year.
Fuel is accepted based on
the age of the spent fuel until the yearly limit is met.
Once this limit is
reached, a facility would have to wait for the next year (or even several
years) before the fuel that is in its own spent fuel pool would be considered
for acceptance by the DOE.
In some cases, a facility's spent fuel may not be
considered for disposal for over 10 years after the repository opens.
Since
the DOE only promised to begin accepting waste in 1998 according to an approved schedule, some of the additional storage which utilities must provide
to store spent fuel that is discharged in this time period cannot be considered deficit storage.
Since each facility has a very different storage situation, the impact
35
of deficit storage must be considered on an individual facility basis, and
can not be generalized.
The development of a reactor-specific deficit capa-
city model follows.
Let to = 1998, the year in which the repository was scheduled to open.
The year in which the repository actually opens will be tr.
The year in
which the facility reaches the end of its license life will be designated
td.
Assuming that all spent fuel which the facility discharges remains on
site, the cumulative number of spent fuel assemblies in storage in any year t
will be Dt, with Do = the cumulative amount of spent fuel discharged up to
the end of 1998.
Let the storage facility at the reactor have capacity Ct at
time t and Ci initially.
reactor.
This capacity may change over the life of the
The total capacity necessary to ensure adequate storage for all
discharged spent fuel if the repository opens in 1998 will be designated Co .
Finally, each facility will have an individual acceptance schedule at the
repository when it opens.
Let the amount accepted in any year of the reposi-
tory's operation be designated by At.
With this information, the storage
deficit at a given facility as a function of the year in which the repository
opens can be calculated.
A quantity SSt, the "storage shortfall" (inunits of assemblies) in year
t is next introduced.
If the repository has not yet opened, we have that:
SSt = Dt - Ct,
If SSt is negative, no shortfall exists.
t < tr
3.1
It is important not to confuse the
storage shortfall for a given year with deficit storage.
Remember, not all
of the storage capacity that must be added (storage shortfall) can be attributed to a repository delay, and hence-labeled deficit storage.
Deficit
storage will be calculated after the storage shortfall which would occur if
the repository opened in 1998 is calculated.
As long as SSt is negative, Ct = Ci since initial on-site storage capacity is sufficient.
When SSt becomes positive, however, Ct will no longer
equal Ci but will now be expressed by:
Ct = Ci + SSt_-
since total on-site storage capacity will have to be increased by SSt_-1
This is only an approximation to the actual storage capacity available at the
facility in a given year, since in reality the storage would be increased in
large chunks, and not by the exact amount that is needed each year.
For
example, if a storage shortfall occurs, the facility may re-rack its pool.
This would create enough storage for several more years, not just enough for
the given year.
Therefore, the yearly storage shortfall shown by this equa-
tion is not a true picture of a utility's storage situation, but it does
predict the total capacity which will eventually need to be added as well as
the rate at which the storage will be needed.
The storage capacity must
continue to be adjusted in this manner to reflect the total capacity available.
The above equation for SSt will continue to be valid as long as t < tr.
When t becomes greater than or equal to tr, however, the equation becomes:
SSt = (Dt - At) - Ct,
t > tr
3.2
where the cumulative inventory of spent fuel discharged and stored on site is
now adjusted for the amount of spent fuel which is accepted by the repository
in that year.
As in the former case, a storage shortfall exists only if SSt
is positive.
Equations 3.1 and 3.2 can continue to be used to calculate storage
shortfall for a given facility until either there is no more data or until t
37
= td, the year in which the facility is decommissioned.
After either one of
these occurrences, the storage shortfall would automatically be zero.
The above equations for SSt allow us to calculate deficit storage for a
facility.
To begin such a calculation, the amount of storage shortfall that
the facility would have had if the repository had opened in 1998 must first
be determined, since this is the storage capacity that the facility must add
which cannot be labeled deficit storage.
This is determined by setting tr =
1998 and calculating SSt for a range of t. For this analysis, the years 1998
to 2020 will be used.
Let this first set of 23 numbers (one value of SSt for
each value of t) be labeled SS 998 ,
for the amount of storage shortfall ex-
perienced by the facility in each of the 23 years between 1998 and 2020 for
the repository opening in 1998.
After this storage shortfall has been calculated, the amount of storage
capacity available on-site must be adjusted so that no shortage shortfall
will occur if the repository opens in 1998.
If the actual nature of storage
addition is not taken into account, the required addition to storage capacity
would simply equal the sum of the storage shortfall over the 23 years in
question.
In reality, however, storage capacity is added in large chunks
which may be larger than the capacity needed.
Adjusting the available capa-
city will ensure that the deficit storage that is calculated later is due
only to a delay in the repository.
In other words, this calculation allows
for the establishment of the correct value of Co , the storage capacity which
a facility will have to provide even if the repository opens in 1998.
Not
all of this capacity will be added by 1998, since some facilities will not
find additional storage necessary until well after the repository has opened,
due to their position on the repository acceptance schedule, as discussed
38
earlier.
The actual year in which this storage is added is not important to
the calculation of deficit storage, since the only concern is ensuring that
there is sufficient storage for all of the waste which the DOE has relinquished its responsibility for.
After this new value of Co has been calculated, it
into equations 3.1 and 3.2.
By doing so, these same equations can now be
used to calculate deficit storage.
and again calculate SSt
set of 23 numbers,
Set tr to an alternate year, say
for t = 1998 to 2020. This will give
2003 ,
SSt
must be inserted
an
2003,
alternate
which will represent the deficit storage for the
facility in each of the 23 years of the period studied if the repository
opens in 2003.
These numbers now represent deficit storage, since any non-
qualifying storage shortfall has been subtracted out by forcing the available
capacity to be adequate for all waste which would have required storage even
if the repository had opened in 1998. By performing similar calculations for
any given year of repository opening, one can calculate the impact of deficiL
storage for any of the years within the 23 year period studied.
With the above model developed, the actual impact that a delay will have
on spent fuel storage can now be investigated.
To begin this investigation,
the total amount of spent fuel that a repository will accept once it is
opened must be known. Table 3.1 specifies the total metric tons of fuel that
will be accepted by the DOE in a given year for the first 23 years of the
repository's operation.
Before the impact of deficit storage on the nuclear industry can be
evaluated,
a list of commercial reactors to consider must be established.
This is not as straightforward as it might seem.
Several reactors are now
ready to produce electricity but have met regulatory delays, thus making
their startup date unclear.
Others have been postponed indefinitely.
these difficulties in mind,
a list of 107 reactors was assembled for this
study.
With
This list is contained in Appendix A. This list includes only those
reactors which are either currently operating or are extremely likely to
operate within the next year.
The next piece of information that is needed,
a predicted acceptance
TABLE 3.1
SPENT-FUEL ACCEPTANCE SCHEDULE AT REPOSITORY
Year
Spent Fuel Accepted
(Metric Tons Uranium)
1200
1200
1200
1200
1200
2000
2650
2650
2650
2650
3000
3000
3000
3000
3000
3000
3000
3000
3000
3000
3000
3000
3000
Source:
Office of Civilian Radioactive Waste Management; OCRWM Mission
Plan Amendment; (Washington, D.C.: United States Department of
Energy, June, 1987) p. 61.
40
schedule by the DOE for each reactor once the repository opens, can not be
arrived at directly.
The DOE has indicated that it will accept fuel at the
repository using a policy of "Oldest Fuel First" (OFF).
This means that the
sole criterion for rank on the acceptance queue is the length of time the
spent fuel has been in storage.
Therefore, a prediction of spent fuel dis-
charges must first be established, so that a schedule can be produced.
The spent fuel discharges that have taken place in the past and the
predicted spent fuel discharges from the commercial nuclear industry through
the year 2010 are shown in Appendix B. For the years up through January of
~1989, the figures are taken from the DOE publication, Spent Fuel Storage
Reauirements 1987. After this point, the predictions were made by the author
and are based on the forecast spent fuel discharges from each facility found
in the DOE publication, Reactor Specific Spent Fuel Discharge Projections:
1986 - 2020.
This publication bases its predictions on past operating sta-
tistics for each facility, reflecting an expected performance level in the
future.
After January 1989, the facilities were assigned a discharge sched-
ule based on a cycle which fit these projections.
The discharge schedule
contained in Appendix B is not intended to be numerically accurate.
Instead,
the predicted discharge date is intended to give a rhythmic schedule for
spent fuel discharge which can be used for illustrative purposes.
Combining the information shown in Table 3.1 with the discharge predictions in Appendix B, a facility-specific acceptance schedule was generated
and is contained in Appendix C.
The first ten years of this acceptance
schedule are taken from the Annual Capacity Report, published by the DOE.
As discussed, the DOE has stated that the only criteria for the establishment
of an acceptance schedule is the age of the discharged fuel.
A comparison of
41
the first ten years of the schedule in Appendix C with the spent fuel discharges listed in Appendix B through January of 1989 shows that the acceptance schedule is indeed based solely on the date which the fuel was discharged from the reactor.
In keeping with this policy, the predicted dis-
charge schedule contained in Appendix B was used to extend the acceptance
schedule out to a period of 23 years.
In order to use the model which was developed above for predicting
deficit storage caused by a delay, several additional pieces of information
are also needed.
First, the determination of the decommissioning date, td,
for each reactor is necessary.
The decommissioning dates for the reactors
used in this study were taken from Reactor-Specific Spent Fuel Discharge
Projections:
1986 to 2020.
They are reported in Appendix D. Secondly, the
spent fuel storage capacity that is currently available at the facility, Ci,
is reported in Appendix E.1.
These figures were taken from the National
Association of Regulatory Utility Commissioners' report 1987 Nuclear Spent
Fuel Survey, and represent the total capacity available at the facility,
including the capacity which is already in use.
Finally, Appendix F contains
the predicted cumulative spent fuel discharge, Dt, at each reactor for the
years 1998 to 2020.
These figures were also taken from Reactor-Specific
Spent Fuel Discharge Projections:
1986 to 2020.
The information contained in Appendices C through F allows us to take
the first step in determining the deficit storage impact that a delay will
have on utilities.
As discussed above, we must first determine the storage
shortfall that would have occurred even if the repository had opened in 1998.
This will allow for the determination of the deficit storage caused by the
delay.
42
A computer program was written which predicts the storage shortfall that
is produced in a given year at a given facility with a given opening date for
the repository by using equations 3.1 and 3.2 as well as the information
contained in Appendices A and C through F. A copy of the FORTRAN code for
this program is contained in Appendix G.
The year that the repository opens, tr, is entered into the program as
the variable OPEN.
The program then reports the storage shortfall en-
countered by each commercial nuclear facility contained in Appendix A for the
years 1998 through 2020 using either equation 3.1 or equation 3.2, depending
on whether or not the year in question is before or after the opening date of
the repository.
This year is also compared to the decommissioning date of
the reactor, which the program refers to as DECOM.
The first routine simply compares the total spent fuel capacity, Ct, at
a facility with the total cumulative spent fuel discharged, Dt , and reports
any storage shortfall.
The varizýles in the program representing these
quantities are CPCTY, ASMBLY, and REPORT, respectively.
This routine is
valid as long as a national repository is not operating.
The second routine, which uses equation 3.2, is entered when the year in
question equals or is greater than the year in which the repository opens.
In this case, the total cumulative spent fuel discharged, Dt , is compared not
only to the total capacity, Ct, at the site, but also to the assemblies taken
from the facility by the DOE, At.
reported.
Again, any storage shortfall is then
In this case, the program variables are ASMBLY, CPCTY, ACCEPT, and
REPORT, respectively.
In both routines, the variable CPCTY is adjusted as discussed above.
is originally set to FULL, which equals Ci.
It
As capacity is added at the
facility, however, it is adjusted to reflect these additions.
After executing the program with the current spent fuel storage capacity, those facilities which would have experienced a storage shortfall even
if the repository had opened in 1998 were identified.
Their capacity was
then increased to eliminate this shortfall, with the new capacities shown in
Appendix E.2.
As discussed, this capacity may or may not be available by
1998, but it allows for a determination of a value for CO nonetheless.
Those capacities which were changed from Appendix E.1 are indicated by
an asterisk.
These capacities were increased in one of two ways.
If the
facility has indicated that it is considering a method of expansion and has
calculated the capacity that would be gained, this preferred method was used
as well as the corresponding amount of new capacity gained.
If the facility
has not expressed a preference for expansion methods, rodconsolidation was
assumed, with a 2:1 compaction ratio.
Since an "actual expansion" approach
was taken, the amount of storage added to the facility was at least as large
and in general much larger than the sum of the storage shortfall over the
study period.
After this substitution was made, the program was re-run for repository
opening dates of 1999 through 2010.
This new output is only deficit storage,
since any storage required will be due solely to a delay in the repository.
The output from the program after the capacity substitution was made is shown
in Appendices H.1 - H.13.
Notice that, as desired, the program reports no
deficit storage if the repository opens in 1998, shown in Appendix H.1.
To determine the impact of deficit storage that a delay will cause, the
output from this program must be arranged to show the cumulative deficit
storage that each facility will experience for each year of a delay.
This
information is shown in Appendices I.1 - 1.12.
Two interesting trends are noticeable when the cumulative deficit storage is arranged in Appendices I.1 - 1.12.
First, notice that if a delay is
only a few years, the impact of deficit storage will be slight. Some facilities are faced with a storage problem, but a majority are not affected.
As
each year passes, however, the impact gets much more pronounced.
By 2010,
virtually all facilities will feel the impact of deficit storage.
Secondly,
notice that it takes approximately 10 years for all facilities to once again
gain control of their storage situation once a delay occurs.
If the reposi-
tory opens in 2003, most facilities will no longer have a deficit storage
problem by 2013, and so on.
This implies that many facilities will need to
have at least a 10 year plan for managing their spent fuel even after the
repository becomes operational.
The fundamental method by which the impact of deficit storage will be
measured by utilities is the assessment of the economic impact it will have.
In order to assess the economic impact to individual utilities, they will
need to assemble three pieces of information.
These are the deficit storage
profile, the storage expansion profile, and the related storage expansion
project cost.
The deficit storage profile is the yearly cumulative amount of deficit
storage that each utility expects if
the repository opens in a given year.
This information was established above and reported in Appendices I.1 - 1.12.
These tables define the facility's deficit storage profile for the years
1998 through 2020 if the repository opens any year from 1999 to 2010. Appendices J.1 and J.2 graphically illustrate the deficit storage profiles for
individual utilities for repository opening dates of 2003 and 2010, respec-
45
tively. As these graphs show, the impact of deficit storage changes dramatically as the delay increases.
Similar graphs could be generated for any year
of repository opening.
The next step is to generate a storage expansion profile for each utility.
This consists of a table which indicates a projection of the amount of
additional storage capacity which a facility will need and the year in which
it will required.
This is the same process as was used to expand the capa-
city at the facilities which experienced a storage shortfall even if the
repository opened in 1998.
Many utilities have not yet developed at-reactor storage expansion
plans, which makes the development of a storage expansion profile for those
facilities impossible.
A method of expansion could be assumed, as Was done
in the earlier case to alleviate a storage shortfall if the repository opened
in 1998.
The justification of such an assumption is difficult at this point,
however, since each method of expansion results in very different capacity
increases and involves very different economic considerations.
The error in
this calculation would thus increase as more utilities were forced to expand
their storage capacity.
desirable.
Therefore, introducing this assumptions is not
Nevertheless, the economic impact of the deficit storage problem
can be estimated.
An understanding of the exact method of storage expansion which will be
utilized at the facility and a knowledge of when it would be implemented
would give a better, more precise estimate of the economic impact of deficit
storage, and such an estimate will be of concern to utilities as they respond
to the threat of a delay.
An approximation of this cost, however, will give
an appreciation for the monetary value that deficit storage represents to the
46
nuclear industry.
This implies that an understanding of the details of the
economics of the storage method chosen or the specific facility's storage
expansion profile are not necessary to gain an approximate insight into the
severity of the deficit storage situation.
With the information already obtained, the economic impact of deficit
storage can be estimated without the related storage expansion profiles.
This is done by considering the added storage on a "per unit" basis.
Recent
estimates 3 have placed the cost of rod consolidation between $30 and $50 per
kgU.
Similarly, the cost of dry-cask storage has been estimated to be bet-
ween $35 and $45 per kgU.
This implies that each kgU that a facility must
create capacity for due to a delay in the repository represents between $30
and $50 that they would not otherwise have had to spend.
If these figures
are then multiplied by the kgU that the facility will have to add, an estimation of the economic impact of deficit storage can be made.
While the estimated cost using this method will not be a "true" cost,
the estimate is not without basis, either.
Facilities need to realize that
deficit storage represents a cost to their operation, and this simple method
will allow them to associate deficit storage with a monetary value.
To establish a relative cost of deficit storage to industry, then, the
following analysis was done.
The per year amount of deficit storage that a
facility will experience for a given opening year of the repository was
multiplied by the assembly-to-kilogram conversion factors listed in Appendix
K.
The kgU of spent-fuel was then multiplied by $30 for a "low" case ap-
proximation and $50 for a "high" case approximation.
3These
A net present value of
estimates were obtained by the author through personal conversations with organizations currently conducting research in this area.
47
these expenditures was then obtained by discounting the outlays back to 1988
using a real discount rate of 5%.
The results of these calculations are
shown in Table 3.2. The amounts shown represent the low and high estimate of
the cost of deficit storage, in 1988 dollars, to the facility for the period
1998 through 2020 if the repository opens in the year shown above that pair
of columns.
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57
The total cost to the nuclear industry of remedying the deficit storage
created if the repository opens in any given year from 1998 to 2010 can now
be approximated by simply summing the individual facilities' impacts for each
year.
This impact is shown in Table 3.3, again for the low and high case
estimates.
In addition, Table 3.3 lists the total kgU of deficit storage
that is generated for a given year of repository opening.
Chapter 4 will
discuss the implications that this impact has for the nuclear industry.
TABLE 3.3
Estimated Economic Impact of Deficit Storage on the
U.S. Nuclear Industry for a Given Year of Repository Operation
YEAR REPOSITORY OPENS
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
TOTAL DEFICIT STORAGE
GENERATED, IN KGU
163,375
425,187
739,461
1,171,036
1,661,169
2,274,141
3,067,045
3,741,234
4,747,273
5,953,744
7,047,416
8,324,554
COST OF DEFICIT STORAGE
MILLIONS OF 1988 DOLLARS
LOW
HIGH
2.5
6.1
10.4
15.7
21.4
28.2
36.7
43.7
53.5
64.5
74.4
85.4
4.1
10.2
17.4
26.2
35.8
47.0
61.1
72.8
89.2
107.6
124.1
142.4
3.2 The Nuclear Waste Fund
The assurance that the repository program would have adequate funding to
ensure its workability was a primary concern of Congress when it passed the
NWPA.
In order to ensure this funding, Congress established the Nuclear
Waste Fund, which was designed to cover the cost of disposing of high level
radioactive, waste by charging the generators of nuclear electricity.
Under
58
the plan, the fund would accrue by assessing a fee of 1 mill/kWh of electricity produced on each commercial nuclear facility.
Other provisions were
included to assess a charge on those facilities which had been generating
waste prior to the passage of the NWPA.
The establishment of 1 mill/kWh was
arrived at by considering the expected cost of developing the repository and
dividing by the total electrical
generation that nuclear facilities were
expected to accomplish over their lifetimes.
A particularly unsettling
aspect of the fund to utilities is that there is no provision for rewarding
utilities which decrease their own waste stream through enhanced fuel management techniques.
Since payments to the fund are based on kWhs generated and
not on spent fuel discharged, incentives to decrease the waste stream by
using higher burnup fuel are nonexistent.
With the passage of the NWPA in 1982, the fund began to collect from
operating utilities as well as from those utilities which had produced high
level waste from prior years' generation.
Since the establishment of the
fund, over $1 billion has been collected directly from utilities.
As stated, the fee is based on total estimated system cost.
A principal
factor in total system cost, however, is the time which is required to develop the site.
If a site takes longer than expected to be developed or if
delays in development occur, the total system cost may increase.
With Nevada
now selected as the host state, some money which would have been spent on the
characterization of alternative sites has undoubtedly been saved.
However, a
continued delay in the construction of a repository will raise serious doubts
as to whether this original assessment will be enough to cover the cost of
the repository.
In its April 1987 Annual Report to Congress, the OCRWM assured Congress
59
that the assessment would be adequate to cover total estimated program costs
of between $24 and $32 billion in 1985 dollars.
The report also indicated,
however, that the fund could possibly be inadequate if a variety of assumptions did not come to pass.
Therefore, the DOE suggested that the estimates
be regarded as "provisional." 4
An independent assessment5 of the probability of fee adequacy was conducted by Raymond Hoskins of the University of Tennessee in March of 1988.
Using decision analysis, Hoskins was able to establish probabilities for
various scenarios and thus predict fee adequacy.
According to Hoskins'
study, a primary factor which will influence the adequacy of the Nuclear
Waste Fund is the probability that is assigned to the time taken for the
successful location, construction, and operation of a repository, since this
greatly influences total costs.
Hoskins found that if the cost estimates which the DOE is using are
correct, there is a 75% probability that a fee of 0.9 mills/kWh would be
adequate to cover total system costs. Ifan uncertainty incost estimates is
included in the calculation, however, there is only a 15% chance that no fee
increase will become necessary, with total fee requirements possibly going as
high as 2.5 mills/kWh.
In light of this, utilities need to recognize that a
delay which could significantly increase the cost of eventually developing a
repository could also significantly alter the amount which they will be required to pay into the Nuclear Waste Fund.
40CRWM; "Fee Adequacy Analysis"; Annual Report to Congress; (Washington,
D.C.: U. S. Department of Energy, April, 1987) p. 32.
5Raymond
E. Hoskins; "Probabilistic Assessment of Nuclear Waste Fund Fee
Adequacy"; (Knoxville: University of Tennessee, March, 1988).
3.3 The Nuclear Regulatory Commission
The effects that a delay would have on the regulation and licensing of
nuclear facilities should also be considered.
The first area which could be affected is the licensing of new storage
facilities.
As seen above, even a short delay will require numerous utili-
ties to add storage which would not otherwise be necessary.
This storage
must be licensed, a process which is naturally more difficult with new or
unique technology.
Since most of these storage techniques are very individ-
ualized for the particular facility, licensing could take a significant
amount of time.
Any delay in securing additional
storage capacity could be an even
larger problem for those utilities which might want to file for a life-extension license during the delay period.
During the years 1998 to 2010, at
least 12 reactors will reach the end of their licensed life, representing
over 5.4 GWe of capacity.
Building new facilities of any kind is likely to
be the second choice of utilities if a life extension license for existing
facilities can be attained.
A quite likely scenario is the denial of such a
request if the facility does not have adequate storage licensed.
Both of these possible licensing delays would indicate that utilities
should consider the possible effects of a delay on their relationship with
the NRC long before a crisis develops.
This point will be discussed later in
Chapter 4.
3.4 The Department of Energy
Ironically, Congress established the opening date of the first repository in the NWPA. so that the spent fuel storage question would not remain
61
open-ended for industry.
As industry prepared for this date, however, it
came to the unfortunate realization that the timetable set by Congress is not
necessarily more likely to be met than the timetable set by anyone else. A
delay will cause DOE's relationship with the other nuclear power generation
environment actors to become even more strained than it is today, as the
blame of the delay is placed on the DOE.
As discussed in Chapter 1, the DOE is to function as a technical research agency, an agency which assists utilities in meeting their objectives
by investigating those technical questions which it feels are important for
the viable continuation of the nuclear power industry.
It is also to act as
a consultant for the NRC, who must determine if the restrictions which it
places on the industry are technologically feasible and at the same time
protect the public health and safety.
A delay in the development of a re-
pository will likely raise doubts as to whether the DOE will ever be able to
overcome the obstacles to permanent high-level waste disposal.
An attitude
of distrust and blame will not be conducive to DOE's ability to carry out its
own objectives.
At that point, industry will have been hit twice;
not only
do they not have a repository, but their primary consultant will have difficulties in performing its duties.
Industry will be in an awkward position to criticize the DOE, since it
relies heavily on the research which the DOE conducts.
The amount of pa-
tience that industry will have with the DOE, however, is not clear;
there is
a point when a starving dog will bite the hand that feeds it.
Both the Congress and the public will be in better positions to criticize the DOE, and they will likely do so.
During the passage of the 1987
Amendments, many legislators clearly did not trust the DOE with the problem
of providing radioactive waste disposal.
Likewise, the public's trust inthe
DOE to solve the problem will likely be diminished, as will be discussed
below.
3.5 The Public
Of all of the effects which a delay may have, the effect on public
opinion may be the toughest for industry to deal with.
Even without a delay, industry must deal with the perception of the
public that since radioactive waste must be stored and monitored for thousands of years, itmust be a major hazard. A delay in the siting of a repository will only increase this perception, as the public comes to believe
that even scientists do not know how to deal with the problem. A delay will
give the impression that the problem is bigger than anticipated.
To an
audience which in large part already believes the problem is too big to
handle, this isnot the best message to be sending.
The reason that this situation will be particularly difficult for industry is that the public will likely vent its fear and displeasure directly
at the source of the waste.
While some increased pressure may be placed on
the DOE or even the NRC, the bulk will be borne by utilities.
As stated previously, each facility needs to consider how each of these
potential ramifications of a delay inthe high-level waste repository program
will affect its own ability to meet its objectives.
of the effects is not sufficient, however.
Considering the impact
Industry needs to develop a
policy which will minimize both the likelihood and potential impacts of a
delay.
CHAPTER 4
DEALING WITH THE EFFECTS OF A DELAY
This thesis has discussed the nuclear power generation environment and
how this environment might be affected if a delay in the national high-level
radioactive waste repository occurs.
Some of these effects are more sig-
nificant than others, but all must be dealt with.
The nuclear industry must
develop a strategy to deal with these effects in a manner which will minimize
their impact, both locally and globally.
Industry will be wise to develop an
effective policy to deal with a delay long before the need arises.
As mentioned earlier, the severity of the various effects of a delay in
the national high-level radioactive waste program that have been discussed in
this thesis will vary from one utility to the next.
Because of this, a
single policy to deal with these effects cannot be developed for every case.
Each utility will have to consider which effects will most impact its own
ability to carry out its objectives and act accordingly.
In any utility's
case, however, there are three elements which should be included in any
policy which is formulated to deal with a delay.
These are anticipation,
participation, and education.
4.1 Anticipation
The central element of a policy which a utility develops to deal with
the effects of a delay in the repository must be anticipation.
If a utility
wishes to minimize the impact, it must act before it is in a position merely
to react. Anticipating the effects of a delay goes beyond recognizing that a
delay might occur.
A utility must consider the specific impacts that the
64
effects of a delay would have on its own operation and develop a strategy
for reducing its impacts.
An effect which was considered extensively in Chapter 3 was the impact
of deficit storage.
While this effect will vary widely from one facility to
the next, it is an impact which is easy to anticipate. Though a particular
utility may disagree with some of the figures which were used in this analysis to predict the impact of deficit storage on its own spent fuel management scheme, by using a computer model such as the one developed, each facility can predict what its own situation will be in light of a repository
opening in any given year.
When this impact is known, rational approaches
can be taken to mitigate the impact of deficit storage.
Building additional storage capacity is only one solution that may prove
useful to utilities faced with deficit storage.
Less capital intensive
options such as re-racking the existing pool or rod consolidation will most
likely be used by most facilities before additional storage is built. There
are also fuel management options, such as converting the cycle to a higher
burnup fuel, which would also decrease the impact of deficit storage on a
utility.
The suitable response will vary from utility to utility, as the
impact of deficit fuel and the options available are considered for each.
Anticipating the impact of deficit storage will allow the facility to best
evaluate the appropriate response.
The impact of a delay on the Nuclear Waste Fund may be difficult for
anyone to predict accurately.
Nonetheless, utilities should anticipate the
possibility of this effect and consider their options and responsibilities in
the event that the 1 mill/kWh proves to be inadequate.
The impact of a delay on a utility's relationship with the NRC, DOE, and
65
the public is even more difficult for a utility to predict.
As with the
impact on the Nuclear Waste Fund, however, anticipation is the key to minimizing the impact of the possible effects in these areas.
Anticipating the
effects of these relationships involves an understanding of the individual
goals of each of these actors.
If a utility can understand how the objec-
tives of the other actors' in its environment will be affected by a delay, it
can more easily anticipate how these changes will affect its own objectives.
As discussed in Chapter 3, industry needs to anticipate an increase in
the amount of time necessary for obtaining life-extension licenses if a delay
occurs.
The NRC will find it difficult to license a facility which does not
have adequate spent fuel storage capacity.
In addition, facilities need to
keep abreast of licensing activities involving storage expansion options.
As
methods of expansion are approved by the NRC, utilities will need to analyze
their own needs and determ4ne which method is most suited to their situation.
A utility's local public may have a significant influence on the options
available to a utility to expand its existing storage,
interaction must also be considered.
cern of local citizens'
and this type of
For example, in response to the con-
groups, at least one utility has agreed to cease
operation of its nuclear facility if all on-site capacity is utilized. There
are some legal questions as to what "on-site capacity" means, and the utility
may be allowed under the agreement to re-rack its existing pool to provide
additional storage.
Nevertheless, situations such as this will make the
effects of a delay on storage capacity more pronounced and harder to deal
with than they already are.
In addition to considering the effects of a delay on a utility's local
public, utilities need to consider the effects to the repository's local
66
public. By default, utilities must now be concerned with this segment of the
public. The reaction to a delay of the groups which are actively involved in
the repository siting and construction process cannot be overlooked by utilities as they develop a policy to deal with the effects of a delay. A failure
to anticipate this reaction may prove disastrous. Inthe book Nuclear Waste:
Socioeconomic Dimensions of Long-Term Storage, the authors suggest that
"[t]he social impacts resulting from the development of a highlevel nuclear waste repository are likely to be extensive. Such
impacts often receive widespread coverage in the media and are
often the basis of demands by local residents for greater community
involvement inthe siting process, for mitigation efforts, and for
litigation that may delay or stop a development. Social impacts
are thus of significance for developers as well as the local residents in impacted areas. It is essential that decision makers be
given detailed, accurate and timely information on the social
effects of repository development. Such information will be vital
to them as they plan for the development and initiate programs for
the mitigation of the potentially negative consequences of repository development."6
In her book, Nuclear Power and Public Policy, K. S. Schrader-Frechette
argues that the public sees the disposal of radioactive waste as having two
nearly insurmountable barriers.
According to Schrader-Frechette, there is a
segment of the public who believes that the disposal of radioactive waste in
deep geological repositories is both inequitable and unethical.
Disposal of
radioactive waste is inequitable because it causes certain groups of society
to bear a greater burden than others.
disposal site bear a greater risk.
For instance, those living near the
Children, who are more susceptible to
radiation damage, also bear a greater risk.
The disposal of radioactive
waste is unethical, Schrader-Frechette argues, for three reasons. First, the
use of deep geologic disposal places a burden on future generations to deal
6 John
K. Thomas, Don E. Albrecht, and Steve H. Murdock; "Assessing the
Social Effects of Repository Siting; Nuclear Waste: Socioeconomic Dimensions
of Long-Term Storage; (Boulder: Westview Press, 1983) p. 157.
67
with a situ3tion which earlier generations produced.
Secondly, the risk of
radioactive waste disposal isnot well enough understood for the repository
to be built.
Finally, the dangers of radioactive waste disposal have not
been accepted by the public voluntarily.
Whether or not a utility agrees with Schrader-Frechette's arguments is
unimportant.
What is important is an understanding of what the feelings of
this segment of the public are.
Anticipating reactions such as this to a
delay in the construction of the repository involves a sensitivity to their
concerns.
The argument that the repository is technically safe does not
answer the public's concerns that the repository is inequitable or unethical.
Therefore, utilities must anticipat- how different actors will respond to a
delay and understand why this response isexpected.
There are numerous examples of instances in which a utility failed to
adequately anticipate the concerns of various groups, worsening the later
effects.
For instance, early in the construction of the Seabrook plant,
located within a few miles of some popular Eastern beaches, a few concerned
citizens indicated that they felt the infrastructure surrounding the site was
inadequate to handle the summer crowds on the beaches in the event of an
emergency.
Instead of anticipating the ramifications of not dealing with
these concerns, the utility chose to largely ignore the infrastructure question and concentrate on constructing a reactor which is arguably one of the
best built in the United States. Today, however, the startup of the facility
is indefinitely delayed due principally to the infrastructure concerns.
If
the utility had of anticipated these reactions and spent a relatively small
amount of money on improving roads or widening some bridges in the area, the
future of the facility might look very different at this point. The amount
68
of money spent on these improvements would have been insignificant compared
to the amount of money the utility islosing by not operating the plant. The
Shoream plant located on Long Island, New York is another example in which a
utility did not fully anticipate the intensity of the concerns expressed by
segments of the public surrounding the facility.
Inthe case of the national
high-level waste repository, utilities cannot afford to risk possible forced
shutdowns or licensing delays simply because they did not anticipate the
power of a concerned public.
4.2 Participation
The second vital component of a policy which utilities need to develop
in order to effectively deal with the ramifications of a delay must be a
provision for participation in the repository development process. While at
times industry seems to have little input into the repository decisions,
utilities must realize that the repository is being built for their benefit
and that the smooth and rapid progression of this process is imperative to
their future ability to carry out their own objectives.
For this reason,
utilities must participate inthe process as much as possible.
One method of participation is to support those organizations funded by
utilities which exclusively lobby Congress on nuclear related issues.
type of involvement is necessary and beneficial,
This
since the professional
status of these organizations increases their ability to directly influence
policy makers.
tive action.
Inaddition, there are benefits which are inherent incollecA cooperative effort generally accomplishes more than the sum
of fragmented efforts.
Complementary to this collective action, a more
direct participation isalso needed.
69
Utilities need to keep the NRC and DOE aware of their situation and
inform them of the effects that a delay will have on their operations.
Anticipating the effects of a delay isnot effective unless it is followed by
an active involvement with government agencies to attempt to minimize these
effects.
Another important facet of participation with government agencies
is to assist them in gaining the public support for the repository which will
be necessary for the repository to be completed quickly.
Utilities need to participate in public awareness activities.
The
tendency of utilities to ignore public interest groups is a very ineffective
way to deal with them.
As construction of the repository begins, utilities
can expect an increased awareness of its impact. The spending of billions of
dollars will not go unnoticed. Much of the negative impact of this increased
awareness can be avoided if from the start utilities are clearly unashamed to
talk about their waste or the repository.
If the resistance to a repository
is minimized by confronting it early, the chance of this resistance causing a
delay in the program will also be minimized.
As seen in Chapter 3, the
reduction of the possibility of a delay caused by public resistance isworth
a significant commitment to some utilities.
Both anticipation and participation are tied closely to the third necessary ingredient in a successful policy, education.
4.3 Education
The nuclear industry often seems to be continuing to follow the principles of secrecy applied to the Manhattan Project.
This self-imposed veil
of silence leaves the public with the impression that nuclear plants are
doing something sinister instead of supplying 15% of the electrical demand in
70
the United States. There is an extreme reluctance by industry to communicate
with the public about virtually any nuclear issue.
Some of this reluctance
can be understood considering the negative reaction which any nuclear issue
seems to evoke from the general public.
Ironically, however, many of those
critical of the nuclear industry interpret this reluctance to communicate
with the general public as a promotion of a secret society of nuclear scientist.
A noted critic of nuclear energy, Amory Lovins, has stated that his
principal disaffection with nuclear power is not the technical issues surrounding it. Instead, he istroubled by the use of nuclear energy because he
feels that itpromotes an elitist group of administrators which dictates the
energy policy of this country to the rest of society. As a counter-example,
he argues that solar energy sources disperse power into the hands of common
citizens.
Whether or not Lovins' argument is correct isnot obvious, since people
are not likely to be any more willing to fix their own solar panel than they
are to simply call the power company and have electricity connected to their
home or business.
As discussed earlier, the validity of the argument isnot
the important point. Utilities need to understand the basis of the displeasure with nuclear energy expressed by this and other segments of the public
in order to properly respond to them. And respond they must; Americans are
becoming increasingly reliant on electricity.
In 1970, 25% of the primary energy sources used in the United States
went to the generation of electricity.
By 1982, this had jumped to 35%.
Electricity is becoming the power source of choice.
With this in mind,
utilities need to consider their own role in supplying electricity. Utili-
71
ties need to educate tie public on the choices which a utility faces in
meeting this increasing demand, and justify its own actions in light of them.
If a utility will develop a policy to deal with the effect of a delay
which incorporates these three broad characteristics, then it will be better
prepared to meet the specific challenges that a delay will bring.
4.4 A Framework for Policy Development
In light of these three broad guidelines for policy formulation,
a
specific set of steps for a utility to take in the development of a policy to
respond to a delay in the high-level waste repository can be formed.
As a first step, each utility should evaluate the impact that a delay
would have on its own spent fuel capacity.
The figures which were generated
in this thesis could be used, or more accurate predictions could be made if
they are desired.
storage is known,
When the projected cost of a delay in terms of deficit
it
is easier to justify spending money to-minimize the
delay's effects.
Once the potential impact has been calculated, each utility needs to
assess whether it can justify becoming involved in the repository process.
Each utility should respond to the threat of a delay in accordance with the
effects a delay would have on its own operation.
For utilities who will not see a significant impact if a delay occurs,
the policy adopted to deal with a delay should involve actions which will
allow them to be supportive of the development process. These utilities will
find justifying policies which involve a great deal of time and money difficult, since the impact of the policy would be worse than the impact of a
delay.
72
Utilities which will be hit hard by deficit storage can easily justify a
deeper involvement.
These utilities should begin by identifying the effects
of a delay which will have the greatest impact on their ability to meet their
objectives.
Again, this would vary utility to utility.
In some cases, the
economic impact of deficit storage may be the most severe consequence of a
delay.
Other facilities may be near the end of their licensed life, and
thus life-extension questions may be the most important potential effect of a
delay.
Some utilities may face a particularly involved segment of the pub-
lic, in which case questions of public opinion may be the most important.
Each utility will have to assess the potential impact of each of the effects
investigated and order them accordingly.
At this point, utilities will have to assess their own ability to justify a financial commitment and corporate involvement level in the repository
development process.
This will be a purely subjective calculation, but it
can be based on the impact that the utility will feel from deficit storage.
As the final step in policy development, each utility needs to determine
the most effective method of channelling the resources which it feels are
justified in mitigating the effects of a delay toward the repository development process.
For some utilities, this may include an intimate involvement
with the NRC to ensure that licensing questions are considered in a timely
manner.
Others may feel they can be most effective by assisting the DOE in
the development process in some way.
Still others may feel that a campaign
to educate the public on repository issues is the most effective way for them
to ensure that minimal delays are incurred.
Utilities will also need to evaluate the most effective form of collective action which can be accomplished.
All affected utilities need to de-
73
velop methods of cooperation to accomplish the repository construction process.
Utilities cannot plan to be most effective by working alone;
they
must encourage the involvement of each other and collectively consider the
most constructive means of p'rticipation.
This framework is very simplistic. But the point here isonly to cause
utilities to consider their own responsibilities in repository development.
The objective of this thesis was to identify and evaluate the most significant ramifications that a delay in the opening of a national repository would
have on industry.
This was accomplished in Chapter 3. The objective of
Chapter 4 was to reflect on the result obtained in Chapter 3 and consider
what actions utilities should take inresponse to them.
Utilities may feel that they are in somewhat of a catch-22 situation.
Anytime that they receive press coverage on nuclear issues it tends to be
negative.
Therefore, an aggressive effort to publicize the effects that a
delay will have on its ability to meet its objectives seems to be a counterproductive approach. Alternatively, ifutilities remain silent on the issue,
public opinion toward nuclear power and particularly the repository will
likely worsen in this case as well.
This paradox for utilities only makes
the proper response harder to identify;
it does not negate the need for a
response.
Utilities with a long-term view will realize that the demand on them is
going to continue to grow.
As options to meet this demand are reduced, the
situation will only worsen. Therefore, utilities must consider the long-term
ramifications of their own actions when they consider the ramifications of a
delay inthe national high-level waste repository program. With such a view,
not responding to a potential delay isdefinitely not the correct response.
4.5 Conclusions
The discussion up to this point has explained the difficulties associated with ranking the various potential effects of a delay for individual
facilities.
Since each utility faces a unique situation, the impact of a
given effect will vary dramatically.
should be addressed, however;
There is a broader question which
what will be the impact of these various
effects on the nuclear industry as a whole?
The national ramifications of a delay are of concern to those individuals and organizations who investigate the broader aspects of energy
policy. the implications of each of the potential impacts must be considered
in terms of the restrictions which they place on the options available to
meet the needs of a growing electrical demand.
Inthis context, the impor-
tance of each of the effects discussed in Chapter 3 is seen in a different
light.
While many of the potential effects discussed will be very important to
individual utilities, policymakers will not consider them to be the most
important aspect of energy policy in the future. For example, the creation
of deficit storage was seen to dramatically affect the operations at some
utilities, particularly if a repository is not operational until 2010 or
later.
From a national perspective, however, the impact is between $85.4
million and $142.4 million, as shown in Table 3.3.
While these amounts are
not insignificant, they represent only a fraction of the cost of a new nuclear power plant ifconstruction were begun today.
From a national energy policy perspective, the most serious effect of a
delay is its potential impact on public opinion.
This is the one effect
75
which cannot be directly controlled and yet which may alter the energy supply
options available.
Options for meeting the increasing demand for electricity allow for
rational answers to supply questions.
A rational energy approach is one
which includes all supply options, including coal, renewable sources, and
nuclear. Any one of these options should not be considered to be the answer
to the nation's energy needs.
Likewise, the restriction of one or more of
these options will make the development of adequate electrical
supplies
increasingly difficult. The implication here isthat the potential ramifications of a delay on public opinion regarding the repository and nuclear
energy itself.must be seriously considered.
The basic question which must be dealt with is the generation options
which the United States will leave. for utilities in the years ahead.
If
nuclear energy is not one of these options, then the ramifications of a delay
on public opinion diminish in importance.
Ifnuclear is to be an option, on
the other hand, then decisions will have to be made regarding the national
policy which will be adopted to ensure that the repository program proceeds
expeditiously.
This question cannot be answered in this thesis.
The answer can only
come from those who have the ability to develop a national energy policy. As
this thesis demonstrates, the longer it takes for this question to be answered, the more difficult it will become for nuclear utilities to respond.
If
policymakers will respond to this question, however, then the potential delay
in the national high-level waste repository program may prove to have a very
beneficial ramification.
The United States may finally be required to come
to terms with nuclear power as a supply option for the future.
SUGGESTIONS FOR FUTURE WORK
This thesis set out to identify the major effects that the nuclear
industry will feel from a delay in the national high-level waste repository
program.
While it has accomplished this task, there are several aspects of
this work which would benefit from further investigation.
Chapter 3 identified deficit storage as a potentially major problem for
industry to deal with.
The problem was presented from the viewpoint that
there will be insufficient spent fuel storage available to utilities if a
repository is delayed.
An interesting alternative view which needs to be
investigated is the significance of the policy of Oldest Fuel First in the
severity of the deficit storage problem.
Since the OFF policy was accepted
by this thesis as the means by which the spent fuel will be given precedence
for acceptance to the waste repository, the calculation of the amount of
deficit storage which will be created relies on the age of the spent fuel
discharged to determine when the facility will need additional storage. Not
all facilities will need additional storage at the same time, however, as
seen from the data presented in Appendices I.1 - 1.12.
This suggests that
there may be a better scheme to prioritize acceptance to the repository which
would minimize the amount of deficit storage created by a delay. This scheme
would involve giving priority to the spent fuel at those facilities which
would first experience deficit storage if a delay occurs.
An investigation
of the feasibility and effectiveness of such a scheme iswarranted.
When the economic impact of deficit storage was investigated, the necessity of a specific storage expansion profile for each facility was explained.
Such a profile needs to be established for each facility if a precise impact
77
of deficit storage is to be evaluated.
mended.
Further work in this area is recom-
The determination of this profile for each facility would not be an
easy task, since, as mentioned, many facilities have not yet themselves faced
the probability of deficit storage and have thus not established a specific
storage expansion method as the option of choice.
As facilities begin to
realize that deficit storage is likely, however, they will begin to identify
the methods by which they will expand their storage capacity if necessary.
At that point, a precise evaluation of the economic impact of deficit storage
should be done.
A final area suggested for future work is a more precise evaluation of
the most effective policy for industry to adopt to mitigate the likelihood
and potential effects of a delay. The framework offered here was designed to
stimulate industry to think about its responsibilities in ensuring the swift
progression of the high-level waste repository program.
specific courses of action for industry.
It did not offer
As 1998 draws nearer, the time for
industry to act will become more and more restricted.
In light of this, an
investigation of specific actions which industry can take to assist the DOE
in developing the repository should be accomplished while options for actions
still exist.
APPENDIX A
REACTORS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
ARK NUCLEAR 1-1
ARK NUCLEAR 1-2
BEAVER VALLEY-I
BEAVER VALLEY-2
BIG ROCK POINT
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-1
BROWNS FERRY-2
BROWNS FERRY-3
BRUNSWICK-I
BRUNSWICK-2
BYRON-I
BYRON-2
CALLAWAY-I
CALVERT CLF-1
CALVERT CLF-2
CATAWBA-1
CATAWBA-2
CLINTON-1
CONN YANKEE
COOPER
CRYSTAL RIVER-3
D C COOK-1
D C COOK-2
DAVIS-BESSE-1
DIABLO CANYON-I
DIABLO CANYON-2
DRESDEN-2
DRESDEN-3
DUANE ARNOLD
FARLEY-1
FARLEY-2
FERMI-2
FITZPATRICK
FORT CALHOUN-1
GINNA
GRAND GULF-I
HARRIS-I
HATCH-I
HATCH-2
HOPE CREEK-I
INDIAN POINT-2
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
LA SALLE-2
LIMERICK-I
MAINE YANKEE
MC GUIRE-I
MC GUIRE-2
MILLSTONE-1
MILLSTONE-2
MILLSTONE-3
MONTICELLO
NINE MILE PT-1
NINE MILE PT-2
NORTH ANNA-I
NORTH ANNA-2
OCONEE-1
OCONEE-2
OCONEE-3
OYSTER CREEK
PALISADES
PALO VERDE-I
PALO VERDE-2
PALO VERDE-3
PEACHBOTTOM-2
PEACHBOTTOM-3
PERRY-1
PILGRIM-1
POINT BEACH-I
POINT BEACH-2
PRAIRIE IS-1
PRAIRIE IS-2
QUAD CITIES-1
QUAD CITIES-2
RANCHO SECO-1
RIVER BEND-1
ROBINSON-2
SALEM-I
SALEM-2
SAN ONOFRE-I
SAN ONOFRE-2
SAN ONOFRE-3
SEQUOYAH-1
SEQUOYAH-2
S. TEXAS PROJ-1
ST. LUCIE-I
ST. LUCIE-2
SUMMER
SURRY-1
SURRY-2
SUSQUEHANNA-1
SUSQUEHANNA-2
THREE MILE IS-i
APPENDIX A (CONTINUED)
REACTORS
97
98
99
100
101
102
103
104
105
106
107
TROJAN
TURKEY POINT-3
TURKEY POINT-4
VERMONT YANKEE
VOGTLE-1
WATERFORD-3
WNP-2
WOLF CREEK
YANKEE-ROWE
ZION-I
ZION-2
79
APPENDIX B
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
DRESDEN-1
DRESDEN-1
CONN YANKEE
SAN ONOFRE-1
DRESDEN-2
CONN YANKEE
CONN YANKEE
HUMBOLT BAY
DRESDEN-1
DRESDEN-1
OYSTER CREEK-I
NINE MILE PT-I
MORRIS-PWR
SAN ONOFRE-1
YANKEE-ROWE
MORRIS-BWR
NINE MILE PT-1
GINNA
OYSTER CREEK
CONN YANKEE
HUMBOLDT BAY
LACROSSE
MILLSTONE-1
POINT BEACH-I
GINNA
INDIAN POINT-1
VT YANKEE-I
MORRIS-PWR
SAN ONOFRE-1
LACROSSE
BRUNSWICK-i
BRUNSWICK-2
ROBINSON-2
DRESDEN-3
MORRIS-BWR
OYSTER CREEK
NINE MILE PT-1
CONN YANKEE
HUMBOLDT BAY
VT YANKEE-1
DRESDEN-1
LACROSSE
PILGRIM-I
GINNA
NINE MILE PT-1
DRESDEN-3
MORRIS-BWR
QUAD CITIES-1
OYSTER CREEK
YEAR
MONTH
ASMBLY
MTU
1969
1969
1970
1970
1971
1971
1971
1971
1971
1971
1971
1971
1972
1972
1972
1972
1972
1972
1972
1972
1972
1972
1972
1972
1972
1972
1973
1973
1973
1973
1973
1973
1973
1973
1973
1973
1973
1973
1973
1973
1973
1973
1973
1974
1974
1974
1974
1974
1974
9
9
4
10
2
4
4
6
9
9
9
9
1
1
2
2
4
4
5
6
8
8
9
9
10
12
1
2
2
3
3
3
3
3
3
4
4
7
9
9
10
11
12
1
3
3
3
3
4
45
49
51
48
244
23
29
40
57
55
24
17
47
2
36
509
31
32
136
53
55
6
28
41
48
40
10
53
4
26
7
43
3
51
13
148
104
55
52
40
52
24
20
12
148
44
122
32
72
5
5
21
18
47
10
12
3
6
6
5
3
17
1
10
98
6
13
26
22
4
1
5
16
19
8
2
19
1
3
3
20
1
10
3
29
20
22
4
8
5
3
4
5
29
9
24
6
14
CUM. MTU
5
10
31
49
96
105
118
121
126
132
137
140
157
158
168
266
272
284
311
333
337
338
343
360
379
386
388
407
409
412
415
435
436
446
448
477
497
520
524
531
537
540
544
548
577
586
609
615
629
80
FUEL ORIGINATOR
POINT BEACH-I
YANKEE-ROWE-1
BIG ROCK-I
BRUNSWICK-1
ROBINSON-2
MAINE YANKEE
DRESDEN-1
MILLSTONE-I
INDIAN PT-I
HUMBOLDT BAY
TURKEY PT-3
SURRY-1
POINT BEACH-2
VT YANKEE-I
MC GUIRE-1
OCONEE-3
DRESDEN-2
QUAD CITIES-2
MORRIS-BWR
FORT CALHOUN
MORRIS-PWR
GINNA
TURKEY PT-4
DRESDEN 3
SURRY-2
HUMBOLDT BAY
CONN YANKEE
LACROSSE
MAINE YANKEE
OYSTER CREEK
DUANE ARNOLD
DRESDEN-1
NINE MILE PT-I
MILLSTONE-I
MORRIS-BWR
SURRY-I
YANKEE-ROWE-1
BRUNSWICK-I
BRUNSWICK-2
ROBINSON-2
TURKEY PT-3
POINT BEACH-1
PALISADES
OYSTER CREEK
GINNA
PILGRIM-I
QUAD CITIES-1
BIG ROCK-1
YEAR
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1974
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
1975
-1975
1975
1975
1975
1975
1975
1975
1976
1976
1976
1976
1976
MONTH
4
5
6
6
6
7
8
8
10
10
10
10
10
10
10
10
11
12
1
2
3
3
3
4
4
5
5
5
5
6
6
9
9
9
9
9
10
10
10
10
10
11
12
1
1
1
1
2
MTU
ASMBLY
74
37
18
102
1
72
37
208
120
28
46
18
36
328
12
41
152
85
81
25
53
26
44
141
26
34
48
25
152
112
2
64
200
144
268
73
40
45
6
1
32
16
205
56
36
132
157
22
29
10
2
45
0
26
4
41
23
2
21
8
14
63
6
19
29
16
16
9
19
10
20
27
12
3
20
3
58
22
0
7
39
28
52
33
10
20
3
0
14
6
84
11
14
25
30
3
CUM. MTU81
658
668
671
716
716
742
746
787
810
812
832
841
855
918
924
943
972
989
1004
1014
1033
1043
1063
1091
1102
1105
1125
1128
1186
1208
1208
1215
1253
1282
1333
1366
1376
1396
1399
1400
1414
1420
1505
1516
1530
1555
1585
1588
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
POINT BEACH-2
MC GUIRE-I
OCONEE-3
THREE MILE IS-I
KEWAUNEE
DUANE ARNOLD
DRESDEN-2
ZION-1
PRAIRIE IS-1
INDIAN PT-2
PEACH BOTTOM-2
BRUNSWICK-1
TURKEY PT-4
SURRY-2
MC GUIRE-2
OCONEE-2
OCONEE-3
CONN YANKEE
HUMBOLDT BAY
MORRIS-PWR
DRESDEN-3
QUAD CITIES-3
OCONEE-1
COOPER
MORRIS-BWR
MILLSTONE-I
POINT BEACH-1
BRUNSWICK-2
ROBINSON-2
SURRY-1
FORT CALHOUN
PRAIRIE IS-2
TURKEY PT-3
PEACH BOTTOM-3
DC COOK-1
ARK NUCLEAR-I
ZION-2
KEWAUNEE
CALVERT CLF-1
NINE MILE PT-i
POINT BEACH-2
QUAD CITIES-I
PRAIRIE IS-1
THREE MILE IS-i
HATCH-i
DUANE ARNOLD
OYSTER CREEK
GINNA
MAINE YANKEE
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1976
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
2
2
2
2
2
2
3
3
3
3
3
3
4
4
4
4
4
5
7
9
9
9
9
9
9
10
10
10
10
10
10
10
11
12
12
1
1
1
1
3
3
3
3.
3
3
3
4
4
4
34
19
41
30
11
80
161
49
40
72
188
4
6
74
13
26
3
53
181
53
148
255
1
94
26
124
32
51
1
89
36
40
57
188
63
50
42
45
32
160
37
183
35
53
4
74
128
41
69
MTU
13
9
19
14
4
15
31
22
16
33
37
1
3
33
6
12
1
22
13
19
29
49
0
18
5
24
13
23
0
40
13
16
25
36
29
23
19
18
13
31
14
36
14
25
1
14
25
16
27
CUM. MTU
1602
1611
1630
1644
1648
1663
1694
1717
1733
1765
1802
1803
1805
1838
1844
1857
1858
1880
1893
1912
1941
1990
1990
2009
2014
2038
2051
2074
2075
2114
2127
2143
2169
2204
2233
2256
2275
2293
2305
2336
2350
2386
2400
2424
2425
2439
2464
2480
2507
82
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
PEACH BOTTOM-2
LACROSSE
TURKEY PT-4
OCONEE-2
DRESDEN-I
YANKEE-ROWE-1
FITZPATRICK
BIG ROCK-1
PILGRIM-i
VT YANKEE-I
OCONEE-3
DRESDEN-2
MORRIS-BWR
ZION-I
SURRY-2
COOPER
MORRIS-BWR
BROWNS FERRY-I
BRUNSWICK-I
CONN YANKEE
POINT BEACH-1
FORT CALHOUN
OCONEE-1
TURKEY PT-3
PRAIRIE IS-2
MILLSTONE-2
BRUNSWICK-2
BRUNSWICK-1
ROBINSON-2
PALISADES
QUAD CITIES-2
CALVERT CLF-I
ARK NUCLEAR-I
ZION-2
INDIAN PT-2
MILLSTONE-I
GINNA
DRESDEN-3
POINT BEACH-2
PRAIRIE IS-i
THREE MILE IS-I
HATCH-I
DUANE ARNOLD
BROWNS FERRY-2
ST LUCIE-1
TROJAN
CRYSTAL RIVER-3
SURRY-1
COOPER
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1977
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
4
5
5
5
6
6
6
8
8
8
8
9
9
9
9
9
9
9
9
10
10
10
10
11
11
11
1
1
1
1
1
1.
1
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
4
4
172
32
34
73
66
36
132
20
428
112
60
196
20
64
81
9
3
168
140
52
48
52
61
27
35
45
40
6
7
68
179
112
61
64
60
124
41
176
44
41
73
24
116
132
52
3
4 '
43
54
32
4
15
34
7
9
26
3
83
21
28
38
4
29
36
2
1
31
26
21
19
19
28
12
14
.18
18
3
3
27
35
41
28
29
27
24
16
34
18
16
34
4
22
25
21
1
2
20
10
2539
2543
2558
2592
2598
2607
2633
2636
2718
2739
2767
2804
2808
2837
2874
2875
2876
2908
2934
2955
2974
2993
3021
3034
3048
3066
3084
3086
3090
3117
3152
3193
3221
3250
3277
3301
3317
3351
3369
3385
3419
3423
3445
3470
3490
3492
3494
3513
3523
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MORRIS-BWR
PEACH BOTTOM-3
KEWAUNEE
DC COOK-1
OCONEE-1
DUANE ARNOLD
INDIAN PT-3
MAINE YANKEE
TURKEY PT-4
SAN ONOFRE-1
MORRIS-PWR
OYSTER CREEK
POINT BEACH-I
VT YANKEE-I
ZION-I
OCONEE-1
OCONEE-3
PEACH BOTTOM-2
FITZPATRICK
CALVERT CLF-2
BROWNS FERRY-3
DRESDEN-1
YANKEE-ROWE-1
MORRIS-BWR
FORT CALHOUN
OCONEE-2
PRAIRIE IS-2
BROWNS FERRY-2
RANCHO SECO-1
CONN YANKEE
TURKEY PT-3
QUAD CITIES-1
BRUNSWICK-I
BIG ROCK-I
GINNA
SURRY-2
THREE MILE IS-I
LACROSSE
NINE MILE PT-I
DRESDEN-2
POINT BEACH-2
VT YANKEE-1
ARK NUCLEAR-1
ZION-2
BRUNSWICK-2
MILLSTONE-2
FARLEY-1
MILLSTONE-I
BRUNSWICK-2
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1978
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
4
4
4
4
6
6
6
7
8
9
9
9
9
9
9
9
9
9
9
9
9
10
10
10
10
11
11
11
11
1
1
1
1
2
2
2
2
3
3
3
3
3
3
3
3
3
3
4
4
6
252
41
64
65
4
64
129
60
36
16
168
33
106
65
9
47
260
136
72
3
464
40
8
44
65
40
26
48
48
30
193
39
26
40
52
52
28
168
158
29
43
65
69
132
72
46
148
4
MTU
1
48
16
29
30
1
29
49
27
13
6
31
13
20
30
4
22
49
25
28
1
47
9
1
16
30
16
5
22
20
14
37
7
3
16
24
24
3
31
30
12
8
30
31
25
27
21
28
2
CUM. MTU
3525
3572
3588
3618
3648
3648
3678
3727
3754
3767
3773
3804
3817
3837
3866
3870
3892
3941
3966
3995
3995
4042
4052
4053
4070
4100
4116
4121
4143
4163
4176
4214
4221
4224
4240
4264
4288
4291
4323
4353
4365
4372
4403
4434
4458
4485
4506
4534
4536
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
ROBINSON-2
TURKEY PT-4
PRAIRIE IS-I
OCONEE-1
HATCH-1
COOPER
MORRIS-BWR
CALVERT CLF-I
BROWNS FERRY-2
DC COOK-1
ST LUCIE-1
CRYSTAL RIVER-3
SALEM-I
KEWAUNEE
INDIAN PT-2
BROWNS FERRY-3
PALISADES
VT YANKEE-I
PEACH BOTTOM-3
INDIAN PT-3
NORTH ANNA-I
POINT BEACH-I
ZION-1
CALVERT CLF-2
DC COOK-2
QUAD CITIES-2
OCONEE-I
OCONEE-3
BEAVER VALLEY-I
TURKEY PT-3
OYSTER CREEK
PILGRIM-I
MAINE YANKEE
FORT CALHOUN
PRAIRIE IS-2
BROWNS FERRY-1
RANCHO SECO-1
DRESDEN-3
MORRIS-BWR
DUANE ARNOLD CRYSTAL
CRYSTAL RIVER-3
GINNA
OCONEE-2
OCONEE-3
COOPER
PEACH BOTTOM-2
BRUNSWICK-2
ST LUCIE-1
SAN ONOFRE-1
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1979
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
4
4
4
4
4
4
4
4
4
4
4
4
4
5
6
8
9
9
9
9
9
10
10
10
10
11
11
11
11
12
1
1
1
1
1
1
1
2
2
2
2
3
3
3
3
3
3
3
4
44
65
41
65
188
162
2
72
156
66
68
56
34
13
63
97
68
139
272
76
51
26
70
64
71
159
49
18
35
37
153
92
73
40
40
362
65
200
148
88
48
36
65
3
152
276
132
88
52
19
29
16
30
35
31
0
28
29
30
25
26
16
5
28
18
26
26
52
35
23
10
32
24
33
31
23
8
16
17
28
17
26
15
16
68
30
38
27
17
22
14
30
1
ý29
51
25
33
19
4555
4584
4600
4630
4666
4696
4697
4725
4754
4784
4809
4835
4851
4856
4885
4903
4929
4955
5006
5041
5064
5075
5107
5130
5163
5194
5217
5225
5241
5258
5286
5302
5329
5343
5360
5427
5457
5496
5523
5540
5562
5576
5606
5608
5636
5687
5712
5745
5764
85
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
POINT BEACH-2
TROJAN
CONN YANKEE
ZION-2
KEWAUNEE
FITZPATRICK
DC COOK-1
BRUNSWICK-1
ROBINSON-2
QUAD CITIES-I
MILLSTONE-2
SURRY-1
VT YANKEE-I
PRAIRIE IS-I
BROWNS FERRY-2
SALEM-i
MILLSTONE-1
INDIAN PT-2
CALVERT CLF-1
BIG ROCK-1
LACROSSE
POINT BEACH-1
TURKEY PT-4
FARLEY-1
BROWNS FERRY-3
HATCH-2
OCONEE-1
OCONEE-3
NORTH ANNA-i
DRESDEN-2
ZION-i
ARK NUCLEAR-I
RANCHO SECO-1
CALVERT CLF-2
TURKEY PT-4
TURKEY PT-3
HATCH-I
PRAIRIE IS-2
NINE MILS PT-1
MORRIS-BWR
PEACH BOTTOM-3
DUANE ARNOLD
DC COOK-2
ARK NUCLEAR-2
GINNA
POINT BEACH-2
COOPER
MORRIS-BWR
BROWNS FERRY-I
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
198G
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1980
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
4
4
5
5
5
5
5
5
8
8
8
9
9
9
9
9
10
10
10
11
11
11
11
11
11
11
12
12
12
1
1
1
1
1
2
2
2
2
3
3
3
3
3
3
4
4
4
4
4
32
67
53
59
33
160
65
245
54
224
73
72
92
40
352
64
168
54
70
22
12
8
36
53
376
76
67
1
63
225
64
64
41
85
1
78
228
41
200
104
216
84
92
35
28
32
95
17
260
13
31
22
27
13
30
28
46
23
42
28
33
17
16
66
29
31
24
27
3
1
3
16
24
70
14
31
0
29
42
29
30
19
33
0
36
42
16
37
19
40
15
42
15
11.
13
18
3
48
5777
5808
5830
5857
5870
5900
5928
5974
5997
6039
6067
6100
6117
6133
6199
6228
6259
6284
6311
6313
6315
6318
6335
6359
6429
6443
6474
6474
6503
6545
6575
6604
6623
6656
6656
6692
6734
6751
6788
6807
6847
6863
6905
6920
6931
6944
6961
6965
:013
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
KEWAUNEE
YANKEE-ROWE-1
MAINE YANKEE
DC COOK-1
TROJAN
CONN YANKEE
PALISADES
PILGRIM-I
QUAD CITIES-2
PRAIRIE IS-1
FORT CALHOUN
ZION-2
ST LUCIE-1
FARLEY-1
CRYSTAL RIVER-3
POINT BEACH-I
VT YANKEE-1
OCONEE-I
TURKEY PT-4
HATCH-I
BROWNS FERRY-3
SURRY-2
FITZPATRICK
OCONEE-2
OCONEE-3
MILLSTONE-2
BEAVER VALLEY-I
GINNA
DRESDEN-3
SALEM-1
BIG ROCK-I
ROBINSON-2
ZION-i
PEACH BOTTOM-2
HATCH-2
TROJAN
INDIAN PT-3
DAVIS-BESSE-1
NORTH ANNA-2
LACROSSE
POINT BEACH-2
OCONEE-1
OCONEE-3
KEWAUNEE
CALVERT CLF-1
BRUNSWICK-2
MORRIS-BWR
COPPER
NORTH ANNA-I
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1981
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
4
5
5
5
5
9
9
9
9
9
9
9
9
9
9
10
10
10
10
10
10
11
11
12
12
12
12
1
1
1
2
2
2
2
2
3
3
3
3
4
4
4
4
4
4
4
5
5
5
41
36
73
64
67
53
68
232
194
40
40
69
64
28
65
25
120
69
28
32
280
16
188
42
29
73
53
23
152
56
22
46
52
276
52
55
76
53
54
30
33
63
9
37
76
159
36
76
57
MTU
16
8
28
27
31
22
28
43
36
16
15
3125
13
30
10
22
32
13
6
52
7
35
19
13
28
24
9
28
26
3
20
24
51
9
25
35
25
25
3
13
29
4
14
30
30
7
14
26
CUM. MTU
7029
7038
7066
7093
7124
7146
7174
7217
7253
7269
7284
7315
7340
7353
7383
7393
7415
7447
7460
7466
7518
7525
7560
7579
7593
7621
7646
7654
7682
7708
7711
7730
7754
7805
7814
7839
7874
7899
7924
7927
7940
7970
7974
7988
8018
8048
8054
8068
8095
87
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED.FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
PRAIRIE IS-2
BROWNS FERRY-2
DC COOK-1
ARK NUCLEAR-2
YANKEE-ROWE-1
MILLSTONE-i
MORRIS-BWR
MONTICELLO
MAINE YANKEE
QUAD CITIES-1
INDIAN PT-2
SEQUOYAH-1
POINT BEACH-I
TURKEY PT-4
TURKEY PT-3
HATCH-1
CALVERT CLF-2
SALEM-I
FARLEY-2
PRAIRIE IS-I
ARK NUCLEAR-1
DC COOK-2
FORT CALHOUN
BRUNSWICK-I
CONN YANKEE
DRESDEN-2
TROJAN
FARLEY-1
SALEM-2
OYSTER CREEK
SURRY-I
ZION-2
PEACH BOTTOM-3
DUANE ARNOLD
RANCHO SECO-1
ST LUCIE-1
POINT BEACH-2
VT YANKEE-1
KEWAUNEE
CRYSTAL RIVER-3
GINNA
TURKEY PT-3
COOPER
BROWNS FERRY-I
HATCH-2
NORTH ANNA-2
BIG ROCK-i
MILLSTONE-2
OCONEE-I
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1982
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
6
7
7
8
9
9
9
9
9
9
9
9
10
10
10
10
10
10
10
11
11
11
12
12
1
1
1
1
1
2
2
2
2
2
2
2
3
3
3
3
4
4
4
4
4
4
5
5
6
39
248
64
60
40
192
166
2
73
224
75
68
20
41
1
104
77
34
52
41
70
81
19
228
53
224
39
66
54
207
90
56
284
128
53
88
44
106
29
68
16
59
116
252
53
55
22
88
65
16
46
27
24
9
35
31
0
28
41
34
31
8
19
0
19
30
16
24
16
33
37
7
43
22
41
18
30
25
36
41
26
52
24
25
33
18
19
11
32
6
27
21
46
10
25
3
34
30
8110
8156
8183
8208
8217
8252
8283
8283
8311
8353
8387
8418
8426
8445
8445
8464
8494
8510
8534
8549
8582
8619
8626
8668
8690
8732
8749
8780
8805
8841
8882
8908
8960
8983
9008
9041
9059
9078
9090
9121
9127
9154
9176
9222
9232
9257
9260
9294
9324
88
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
SURRY-2
FITZPATRICK
BEAVER VALLEY-1
DC COOK-1
DAVIS-BESSE-I
SEQUOYAH-2
PALISADES
PRAIRIE IS-2
POINT BEACH-I
DRESDEN-3
QUAD CITIES-2
ZION-I
OCONEE-2
BROWNS FERRY-3
FARLEY-2
CALVERT CLF-1
ARK NUCLEAR-2
LACROSSE
HATCH-I
PILGRIM-I
PRAIRIE IS-1
ROBINSON-2
HATCH-2
MORRIS-BWR
MONTICELLO
FARLEY-I
SALEM-I
MC GUIRE-1
SEQUOYAH-1
YANKEE-ROWE-I
NINE MILE PT-I
MAINE YANKEE
QUAD CITIES-i
TURKEY PT-4
FORT CALHOUN
ZION-2
OCONEE-3
KEWAUNEE
BRUNSWICK-2
DC COOK-2
MILLSTONE-I
GINNA
PEACH BOTTOM-2
CALVERT CLF-2
BIG ROCK-I
TROJAN
NORTH ANNA-I
VT YANKEE-1
INDIAN PT-2
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1983
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
6
6
6
7
7
7
8
8
9
9
9
9
9
9
9
10
10
11
11
12
12
1
1
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
4
4
4
4
5
5
5
6
6
53
200
53
66
79
68
68
41
45
256
228
73
73
248
64
104
65
22
148
224
41
65
184
128
60
78
82
35
72
36
216
73
196
63
26
68
68
57
185
91
200
29
292
101
20
52
78
106
72
24
37
24
28
37
31
26
16
18
47
42
33
34
45
29
40
27
2
27
41
16
28
34
23
11
36
37
16
33
8
39
27
35
29
9
31
32
22
34
42
36
11
53
38
3
24
36
19
32
9349
9385
9410
9438
9475
9506
9533
9548
9566
9613
9655
9689
9723
9768
9797
9837
9864
9866
9893
9934
9950
9978
10012
10035
10046
10081
10119
10135
10168
10176
10215
10243
10278
10307
10317
10348
10379
10401
10435
10477
10513
10524
10577
10615
10617
10641
10677
10696
10729
89
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
CONN YANKEE
NORTH ANNA-2
SURRY-I
POINT BEACH-2
HATCH-I
COOPER
PRAIRIE IS-2
BROWNS FERRY-2
DAVIS BESSE-1
SEQUOYAH-2
SUMMER-I
DRESDEN-2
OCONEE-I
ARK NUCLEAR-I
BEAVER VALLEY-1
SALEM-2
ST LUCIE-2
SAN ONOFRE-2
PRAIRIE IS-I
ZION-1
FARLEY-2
MC GUIRE-2
OCONEE-2
KEWAUNEE
DUANE ARNOLD
MILLSTONE-2
FITZPATRICK
SUSQUEHANNA-1
LACROSSE
TURKEY PT-3
QUAD CITIES-2
SURRY-2
BROWNS FERRY-2
RANCHO SECO-1
BRUNSWICK-I
CRYSTAL RIVER-3
ARK NUCLEAR-2
GINNA
POINT BEACH-1
CALVERT CLF-I
DC COOK-1
FARLEY-1
HATCH-2
MC GUIRE-1
TROJAN
INDIAN PT-3
BIG ROCK-1
PEACH BOTTOM-3
MAINE YANKEE
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1984
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
8
8
9
9
9
9
9
9
9
9
9
10
10
10
10
10
10
10
12
1
1
1
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
4
4
4
4
4
4
4
5
6
7
7
8
ASMBLY
MTU
CUM. MTU
53
65
89
30
258
116
41
304
65
68
44
196
64
68
77
61
80
66
7
73
72
35
68
45
120
77
196
192
28
57
176
60
260
58
184
65
68
32
35
76
94
78
181
69
36
76
20
284
73
22
30
41
12
48
21
15
55
31
31
20
36
30
32
35
28
31
28
3
33
33
16
32
17
22
31
36
35
3
26
32
27
47
27
34
30
29
12
14
29
40
36
33
32
17
35
3
52
27
10751
10781
10821
10833
10881
10902
10918
10973
11004
11035
11055
11091
11120
11152
11187
11215
11246
11274
11276
11310
11343
11359
11390
11407
11429
11460
11496
11531
11534
11561
11592
11620
11667
11694
11728
11758
11787
11799
11813
11842
11882
11918
11951
11983
12000
12034
12037
12089
12116
90
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
OCONEE-3
PRAIRIE IS-2
SEQUOYAH-1
VT YANKEE-1
FORT CALHOUN
ZION-2
SAN ONOFRE-3
YANKEE-ROWE-I
MILLSTONE-I
DRESDEN-3
POINT BEACH-2
ST LUCIE-1
CALVERT CLF-2
LA SALLE-I
SUMMER-1
PALISADES
HATCH-I
BRUNSWICK-2
NORTH ANNA-i
CONN YANKEE
ROBINSON-2
QUAD CITIES-I
TURKEY PT-4
INDIAN PT-2
OCONEE-1
DC COOK-2
NORTH ANNA-2
SAN ONOFRE-2
CALLAWAY-1
LACROSSE
NINE MILE PT-I
PRAIRIE IS-I
KEWAUNEE
SALEM-i
MC GUIRE-2
OYSTER CREEK-1
GINNA
POINT BEACH-1
SURRY-1
BEAVER VALLEY-1
FARLEY-2
ST LUCIE-2
WASH NUCLEAR-2
CATAWBA-I
SAN ONOFRE-1
MONTICELLO
TROJAN
SUSQUEHANNA-1
ZION-1
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1985
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
8
8
8
9
9
9
9
10
10
10
10
10
10
10
10
11
11
11
11
1
1
1
1
1
2
2
2
2
2
3
3
3
3
3
3
4
4
4
4
4
4
4
4
4
5
5
5
5
6
68
57
72
120
65
76
66
40
200
184
33
84
69
132
68
68
180
148
50
53
48
184
69
68
60
89
65
89
84
28
200
61
25
77
69
176
33
33
52
69
69
84
132
64
52
136
36
296
64
31
21
33
22
23
35
28
9
36
33
13
32
27
24
31
26
33
27
23
22
21
32
32
31
28
37
30
35
39
3
35
22
9
35
32
31
12
13
24
32
32
30
24
27
19
24
17
54
29
12148
12168
12201
12223
12247
12281
12309
12319
12354
12387
12400
12432
12459
12483
12514
12541
12574
12601
12624
12646
12667
12699
12731
12762
12789
12827
12857
12892
12931
12934
12969
12992
13001
13036
13068
13099
13111
13124
13148
13180
13211
13242
13266
13293
13312
13337
13353
13408
13437
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
ARK NUCLEAR-2
MC GUIRE-1
OCONEE-2
RANCHO SECO-1
ARK NUCLEAR-I
MILLSTONE-2
SUSQUEHANNA-2
POINT BEACH-2
PILGRIM-1
HATCH-2
SALEM-2
LA SALLE-2
DIABLO CANYON-1
GRAND GULF-1
QUAD CITIES-2
SURRY-2
COOPER
PRAIRIE IS-2
CALVERT CLF-1
FARLEY-1
WORK CREEK-I
DRESDEN-2
SEQUOYAH-2
SAN ONOFRE-3
BIG ROCK-1
WATERFORD-3
TURKEY PT-3
THREE MILE IS-1
PEACH BOTTOM-2
MAINE YANKEE
OCONEE-3
DUANE ARNOLD
FITZPATRICK
INDIAN PT-3
FORT CALHOUN
KEWAUNEE
ZION-2
HATCH-I
ST LUCIE-1
BRUNSWICK-1
CRYSTAL RIVER-3
CALVERT CLF-2
DAVIS BESSE-I
BYRON-1
PALO VERDE-1
LIMERICK-I
RIVER BEND-I
GINNA
POINT BEACH-1
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1986
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
6
6
7
7
8
8
8
9
9
9
9
9
9
9
10
10
10
10
10
10
10
11
11
11
12
12
1
1
1
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
3
4
4
60
73
60
57
64
57
324
32
192
196
53
224
68
264
152
57
152
41
77
65
52
192
80
89
20
73
56
76
248
65
60
128
188
76
45
37
80
184
72
196
93
88
65
88
60
328
168
36
32
MTU
26
34
28
26
30
23
59
13
34
36
24
41
31
48
27
26
28
15
29
30
24
34
37
35
3
31
26
35
45
24
28
23
34
35
16
14
37
34
27
36
43
34
30
37
26
60
31
13
13
CUM. MTU
13462
13496
13524
13550
13580
13603
13662
13675
13709
13745
13770
13811
13842
13890
13917
13943
13971
13986
14015
14045
14069
14103
14140
14175
14178
14209
14235
14270
14315
14339
14367
14390
14424
14459
14475
14489
14526
14559
14586
14622
14665
14699
14729
14767
14792
14853
14884
14897
14910
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
ROBINSON-2
PRAIRIE IS-1
DC COOK-1
SUMMER-I
WASH NUCLEAR-2
YANKEE-ROWE-1
CONN YANKEE
LACROSSE
PEACH BOTTOM-3
TROJAN
NORTH ANNA-1
MC GUIRE-2
VT YANKEE-I
OCONEE-1
INDIAN PT-2
LA SALLE-I
CATAWBA-1
CATAWBA-2
PALISADES
MC GUIRE-I
DIABLO CANYON-2
MONTICELLO
DRESDEN-3
QUAD CITIES-I
TURKEY PT-4
SALEM-I
FARLEY-2
SAN ONOFRE-2
CALLAWAY-1
CLINTON-I
MILLSTONE-I
POINT BEACH-2
ZION-i
BEAVER VALLEY-i
HATCH-2
NORTH ANNA-2
GRAND GULF-1
WOLF CREEK-1
OCONEE-2
DC COOK-2
SUSQUEHANNA-I
ST LUCIE-2
SEABROOK-1
MILLSTONE-3
BIG ROCK-1
SURRY-1
PRAIRIE IS-2
RANCHO SECO-1
BRUNSWICK-2
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1987
1988
1988
1988
1988
1988
4
4
4
4
4
5
5
5
5
5
5
5
6
6
6
7
7
7
8
8
8
9
9
9
9
9
9
9
9
9
10
10
10
10
10
10
10
10
11
11
11
11
11
12
1
1
1
1
1
49
41
80
68
196
36
53
24
220
64
65
73
120
60
68
324
68
64
68
69
68
108
152
172
52
81
69
89
96
192
200
32
76
73
184
58
264
52
60
88
240
72
64
84
20
52
40
65
192
21
15
36
31
36
8
22
3
40
29
30
34
22
28
31
59
29
27
27
30
31
19
25
30
24
37
32
38
44
35
35
13
35
34
34
27
48
24
28
35
44
28
30
39
3
24
13
30
35
14931
14946
14982
15013
15049
15057
15079
15082
15122
15151
15181
15215
15237
15264
15295
15354
15383
15410
15437
15466
15498
15517
15543
15573
15597
15634
15666
15703
15748
15783
15818
15831
15866
15900
15934
15960
16009
16033
16060
16096
16140
16167
16197
16236
16238
16262
16275
16306
16341
93
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
MILLSTONE-2
PALO VERDE-2
COOPER
PERRY-I
NINE MILE PT-1
DRESDEN-2
QUAD CITIES-2
SURRY-2
KEWAUNEE
CALVERT CLF-1
FARLEY-1
ARK NUCLEAR-2
SEQUOYAH-I
SALEM-2
LA SALLE-2
SUSQUEHANNA-2
PALO VERDE-i
HOPE CREEK
HARRIS-I
OYSTER CREEK
GINNA
POINT BEACH-I
PILGRIM-I
WASH NUCLEAR-2
VOGTLE-1
SAN ONOFRE-1
ARK NUCLEAR-1
TROJAN
DIABLO CANYON-1
PRAIRIE IS-I
SAN ONOFRE-3
FERMI-2
WATTS BAR-I
LACROSSE
MAINE YANKEE
OCONEE-3
WATERFORD-3
FITZPATRICK
SHOREHAM
MC GUIRE-2
POINT BEACH-2
VT YANKEE-I
TURKEY PT-3
FORT CALHOUN
THREE MILE IS-I
PEACH BOTTOM-2
ZION-2
HATCH-1
DUANE ARNOLD
YEAR
MONTH
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1
1
2
2
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
4
4
4
4
4
4
5
5
5
5
6
6
6
6
7
7
7
7
8
8
8
9
9
9
9
9
9
9
9
9
ASMBLY
MTU
CUM. MTU
75
60
136
252
200
168
168
44
41
93
72
64
80
93
23
212
80
252
53
172
32
32
196
168
84
53
61
64
80
40
89
232
64
24
73
60
93
164
204
69
32
128
48
44
78
232
72
184
120
30
26
25
46
35
28
30
20
16
35
33
27
37
43
42
39
32
47
25
30
11
13
35
31
39
20
28
29
37
15
38
43
30
3
27
28
37
30
37
30
11
23
22
15
36
43
33
34
22
16371
16397
16422
16468
16503
16531
16561
16581
16597
16631
16664
16692
16728
16771
16813
16852
16884
16931
16956
16986
16997
17010
17044
17075
17114
17134
17162
17191
17228
17243
17280
17323
17353
17355
17382
17410
17447
17477
17514
17544
17555
17579
17601
17616
17652
17695
17728
17762
17784
94
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
BROWNS FERRY-2
SUMMER-I
BYRON-I
RIVER BEND-1
CATAWBA-2
NINE MILE PT-2
COMANCHE PK-1
CONN YANKEE
ROBINSON-2
OCONEE-I
INDIAN PT-3
ST LUCIE-1
DAVIS-BESSE-I
CATAWBA-1
WOLF CREEK-I
CLINTON-I
YANKEE-ROWE-1
DC COOK-1
NORTH ANNA-1
MC GUIRE-1
SEQUOYAH-2
PALO VERDE-2
MONTICELLO
LA SALLE-1
DIABLO CANYON-2
PALO VERDE-1
S. TEXAS PROJ-1
BEAVER VALLEY
BYRON-2
MILLSTONE-3
NORTH ANNA-2
OCONEE-2
PALISADES
PEACH BOTTOM-3
QUAD CITIES-1
SUSQUEHANNA-1
ZION-1
BIG ROCK-1
BRUNSWICK-I
COOPER STATION
FARLEY-2
HATCH-2
LIMERICK-1
PALO VERDE-2
CALLAWAY-1
HOPE CREEK
INDIAN POINT-2
PALO VERDE-3
ST. LUCIE-2
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1988
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
9
9
9
9
9
9
9
10
10
10
10
10
10
10
10
10
11
11
11
11
11
11
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
3
3
3
3
3
284
68
88
16
68
296
64
49
60
60
76
76
61
64
48
208
40
80
65
65
80
80
108
188
80
72
70
62
114
121
55
51
58
184
137
204
61
17
153
95
61
155
187
98
82
324
57
76
63
52
31
37
40
29
54
30
20
24
28
35
28
29
27
22
38
9
37
30
28
37
32
19
34
37
29
38
29
48
56
25
24
23
34
24
36
28
2
29
17
28
29
34
39
35
60
26
32
24
CUM. MTU
17835
17867
17904
17944
17973
18027
18056
18076
18100
18128
18163
18191
18220
18247
18269
18307
18316
18353
18383
18411
18448
18480
18498
18533
18569
18598
18636
18665
18713
18769
18794
18818
18841
18875
18899
18935
18963
18965
18994
19011
19039
19068
19102
19141
19176
19236
19262
19294
19318
95
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
TURKEY PT.-4
CRYSTAL RIVER-3
DRESDEN-3
GINNA
KEWAUNEE
TROJAN
VOGTLE-i
MILLSTONE-1
MILLSTONE-2
SALEM-I
WNP-2
BRAIDWOOD-1
BROWNS FERRY-3
COOK-2
GRAND GULF-1
HARRIS-I
OYSTER CREEK-I
WOLF CREEK-1
LA SALLE-2
POINT BEACH-I
QUAD CITIES-2
CALVERT CLF-2
CATAWBA-2
FERMI-2
FARLEY-1
MAINE YANKEE
MC GUIRE-2
OCONEE-3
POINT BEACH-2
SURRY-I
ARK NUCLEAR-2
BRUNSWICK-2
CATAWBA-I
PERRY-I
PRAIRIE IS-I
CLINTON-i
DRESDEN-2
PRAIRIE IS-2
SPERRY-i
DIABLO CANYON-1
SAN ONOFRE-1
ARK NUCLEAR-1
CONN YANKEE
MC GUIRE-1
NORTH ANNA-I
OCONEE-1
PALO VERDE-I
PEACH BOTTOM-2
SOUTH TEXAS-1
1989
*1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1989
1990
1990
1990
1990
1990
1990
1990
1990
3
4
4
4
4
4
4
5
5
5
5
6
6
6
6
6
6
6
7
7
7
8
8
8
8
8
8
8
8
8
9
9
9
9
9
10
10
10
11
12
12
1
1
1
1
1
1
1
1
ASMBLY
44
65
136
27
33
42
111
170
62
72
126
114
229
75
211
67
125
41
187
30
137
75
80
249
58
62
55
51
30
45
58
157
54
278
34
272
135
33
48
88
45
52
41
55
55
51
108
186
42
MTU
CUM. MTU
20
30
23
9
13
19
51
30
25
33
23
48
42
30
38
31
22
19
34
11
24
28
34
46
27
23
23
24
11
21
24
29
23
51
12
50
23
12
22
40
17
24
17
23
25
24
46
34
23
19338
19368
19391
19400
19413
19432
19483
19513
19538
19571
19594
19642
19684
19714
19752
19783
19805
19824
19858
19869
19893
19921
19955
20001
20028
20051
20074
20098
20109
20130
20154
20183
20206
20257
20269
20319
20342
20354
20376
20416
20433
20457
20474
20497
20522
20546
20592
20626
20649
96
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
SUMMER-I
SUSQUEHANNA-2
WATERFORD-3
ZION-2
BEAVER VALLEY-2
HATCH-1
PALO VERDE-2
ROBINSON-2
THREE MILE IS-i
BIG ROCK-1
BYRON-i
COOPER
DAVIS-BESSE-1
DUANE ARNOLD
MONTICELLO
PALO VERDE-3
RIVER BEND-I
SAN ONOFRE-3
SEQUOYAH-1
ST. LUCIE-1
TURKEY PT
FITZPATRICK
OCONEE-2
SEQUOYAH-2
TROJAN
KEWAUNEE
PILGRIM-1
VT YANKEE-1
WASH NUCLEAR-2
DC COOK-1
INDIAN PT-3
MILLSTONE-3
NINE MILE PT-I
SUSQUEHANNA-I
WOLF CREEK-I
YANKEE-ROWE-I
ZION-I
BRUNSWICK
BYRON-2
CALVERT CLF-1
LA SALLE-1
NORTH ANNA-2
POINT BEACH-1
QUAD CITIES-1
BEAVER VALLEY-1
FARLEY-2
HATCH-2
LIMERICK-I
POINT BEACH-2
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1
1
1
1
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
4
4
4
4
5
5
5
5
6
6
6
6
6
6
6
6
7
7
7
7
7
7
7
8
8
8
8
8
ASMBLY
MTU
CUM. MTU
57
186
85
64
25
154
50
40
61
17
75
98
52
102
92
57
169
75
68
60
44
151
51
68
40
31
162
108
135
68
64
65
162
187
41
31
61
156
59
78
186
55
28
136
61
58
155
175
27
26
34
35
29
12
28
21
17
28
2
32
18
24
19
16
23
31
32
31
23
20
28
24
31
18
12
29
20
24
31
29
30
29
33
19
7
28
29
25
30
34
25
10
24
28
27
29
32
10
20675
20709
20744
20773
20785
20813
20834
20851
20879
20881
20913
20931
20955
20974
20990
21013
21044
21076
21107
21130
21150
21178
21202
21233
21251
21263
21292
21312
21336
21367
21396
21426
21455
21488
21507
21514
21542
21571
21596
21626
21660
21685
21695
21719
21747
21774
21803
21835
21845
97
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
TURKEY PT-4
CALLAWAY-1
HOPE CREEK
INDIAN PT-2
MILLSTONE-2
NINE MILE PT-2
PALISADES
PRAIRIE IS-I
ST LUCIE-2
VOGTLE-1
DRESDEN-3
PRAIRIE IS-2
CATAWBA-2
SALEM-I
DIABLO CANYON-2
GRAND GULF-1
MC GUIRE-2
SURRY-I
ARK NUCLEAR
BRAIDWOOD
BROWNS FERRY-2
BROWNS FERRY-3
CATAWBA-1
HARRIS-2
LA SALLE-2
MAINE YANKEE
OCONEE-3
OYSTER CREEK
PALO VERDE-1
QUAD CITIES-2
SOUTH TEXAS-1
BRAIDWOOD-2
FARLEY-1
PALO VERDE-2
PEACH BOTTOM-3
RANCHO SECO-I
SAN ONOFRE-2
DC COOK-2
PALO VERDE-3
PERRY-1
BIG ROCK-1
BRUNSWICK
CLINTON-1
COOPER
CRYSTAL RIVER-3
DRESDEN-2
CONN YANKEE
MC GUIRE-1
OCONEE-1
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1990
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
8
9
9
9
9
9
9
9
9
9
10
10
11
11
12
12
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
3
3
3
4
4
4
4
4
4
4
4
4
41
74
180
57
63
200
58
34
61
65
134
34
50
62
88
224
55
44
65
63
211
218
61
43
212
70
57
142
61
155
40
73
69
48
207
66
86
84
52
178
17
176
151
112
69
151
51
61
58
19
31
33
26
26
37
23
12
24
30
22
12
21
29
40
40
23
20
27
27
38
40
26
20
39
27
26
25
27
27
22
31
32
21
38
31
37
34
21
32
2
33
28
20
32
25
21
26
27
CUM. MTU
21864
21895
21928
21954
21980
22017
22040
22052
22076
22106
22128
22140
22161
22190
22230
22270
22293
22313
22340
22367
22405
22445
22471
22491
22530
22557
22583
22608
22635
22662
22684
22715
22747
22768
22806
22837
22874
22908
22929
22961
22963
22996
23024
23044
23076
23101
23122
23148
23175
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
SALEM UNIT-2
TROJAN
MILLSTONE-1
SURRY-2
WASH NUCLEAR-2
GINNA
KEWAUNEE
MONTICELLO
SUSQUEHANNA-2
WATERFORD-3
WOLF CREEK-1
ZION-2
BEAVER VALLEY-2
NORTH ANNA-1
POINT BEACH-I
SUMMER-1
THREE MILE IS-I
ARK NUCLEAR-1
CALVERT CLF-2
DIABLO CANYON-I
FERMI-2
HATCH-1
POINT BEACH-2
ROBINSON-2
TURKEY PT-3
BYRON-I
DAVIS BESSE-1
DUANE ARNOLD
PRAIRIE IS-i
RIVER BEND-1
ST LUCIE-1
FITZPATRICK
PRAIRIE IS-2
VT YANKEE-I
FT CALHOUN
YANKEE-ROWE-I
BROWNS FERRY-I
BRUNSWICK-1
LA SALLE-1
MC GUIRE-2
MILLSTONE 3
NORTH ANNA-2
OCONEE-2
PALO VERDE-I
QUAD CITIES-I
SAN ONOFRE
SOUTH TEXAS-I
SUSQUEHANNA-I
ZION-1
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1991
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
MONTH
ASMBLY
MTU
CUM. MTU
4
4
5
5
5
6
6
6
6
6
6
6
7
7
7
7
7
8
8
8
8
8
8
8
8
9
9
9
9
9
9
10
10
10
11
12
1
1
1
1
1
1
1
1
1
1
1
1
1
92
46
192
51
153
30
36
104
215
97
46
69
54
73
30
65
66
54
96
104
267
177
31
46
46
84
59
122
39
196
73
173
38
122
39
39
203
163
194
57
75
58
53
57
142
46
43
199
63
38
21
34
23
27
10
14
18
37
40
21
32
25
29
11
30
31
25
36
48
49
33
11
20
21
36
28
22
14
36
28
31
13
22
14
32
37
30
35
24
35
27
25
25
25
17
23
25
29
23213
23234
23268
23291
23318
23328
23342
23360
23397
23437
23458
23490
23515
23544
23555
23585
23616
23641
23677
23725
23774
23807
23818
23838
23859
23895
23923
23945
23959
23995
24023
24054
24067
24089
24103
24135
24172
24202
24237
24261
24296
24323
24348
24373
24398
24415
24438
24463
24492
99
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
BIG VALLEY-1
BYRON-2
CATAWBA-2
FARLEY-2
HATCH-2
LIMERICK-I
MILLSTONE-2
PALO VERDE-2
CALLOWAY-I
CATAWBA-1
DC COOK-1
HOPE CREEK
INDIAN PT-3
PALISADES
PALO VERDE-3
SAN ONOFRE-3
SEQUOYAH-I
ST. LUCIE-2
TI!qREY PT-4
Dkl5DEN-3
SEQUOYAH-2
SURRY-I
TROJAN
VOGTLE-I
BIG ROCK-1
COOPER ST
SALEM-I
WASH NUCLEAR-2
BROWNS FERRY-2
GRAND GULF-1
HARRIS-1
INDIAN PT-2
NINE MILE PT-I
OCONEE-3
OYSTER CREEK-I
WOLF CREEK-1
CALVERT CLF-1
GINNA
LA SALLE-2
POINT BEACH-I
QUAD CITIES-2
FARLEY-I
CONN YANKEE
MC GUIRE-1
OCONEE-1
PEACH BOTTOM-3
POINT BEACH-2
RANCHO SECO-1
BRAIDWOOD-1
YEAR
MONTH
ASMBLY
MTU
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
4
4
4
4
4
5
5
5
5
6
6
6
6
6
6
6
6
7
7
7
7
7
8
8
8
8
8
8
8
9
65
78
57
63
163
198
68
54
85
56
71
237
68
61
57
79
71
64
42
140
71
47
40
74
17
102
85
145
199
235
44
61
147
53
153
46
82
28
195
28
141
61
47
57
53
192
28
54
78
30
33
24
29
30
35
28
24
36
24
33
44
31
24
24
34
33
25
19
23
33
22
19
34
2
19
39
26
36
41
20
28
30
25
27
19
31
9
35
10
25
28
19
24
25
35
19
25
33
CUM. MTU
24522
24555
24579
24608
24638
24673
24701
24725
24761
24785
24818
24862
24893
24917
24941
24975
25008
25033
25052
25075
25108
25130
25149
25183
25185
25204
25243
25269
25305
25346
25366
25394
25424
25449
25476
25495
25526
25535
25570
25580
25605
25633
25652
25676
25701
25736
25755
25780
25813
100
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILJTY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
MONTICELLO
NINE MILE PT-2
PERRY-I
BRAIDWOOD-2
CLINTON-1
DC COOK-2
DRESDEN-2
PRAIRIE IS-2
SURRY-2
DIABLO CANYON-2
BRUNSWICK-2
BYRON-I
MAINE YANKEE
NORTH ANNA-I
PALO VERDE-1
PEACH BOTTOM-2
SOUTH TEXAS-1
SUMMER-1
SUSQUEHANNA-2
WATERFORD-3
ZION-2
ARK NUCLEAR-2
BEAVER VALLEY-2
HATCH-1
PALO VERDE-2
ROBINSON-2
SAN ONOFRE-2
THREE MILE IS
ARK NUCLEAR-I
DAVIS BESSE-1
DUANE ARNOLD
PALO VERDE-3
RIVER BEND-I
ST LUCIE-I
TURKEY PT-3
CRYSTAL RIVER-3
FITZPATRICK
MC GUIRE-2
OCONEE-2
TROJAN
CATAWBA-2
FT CALHOUN
MILLSTONE-I
MILLSTONE-2
VT YANKEE-1
WASH NUCLEAR-2
BIG ROCK-I
BROWNS FERRY-3
COOPER
1992
1992
1992
1992
1992
1992
1992
1992
1992
1992
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
9
9
9
10
10
10
10
10
11
12
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
3
3
3
3
3
3
3
4
4
4
4
4
5
5
5
5
5
5
6
6
6
96
245
207
73
193
78
140
33
47
95
154
70
61
54
53
189
40
57
186
84
60
56
56
154
50
51
74
61
47
51
99
48
174
63
40
60
147
53
50
40
49
36
167
64
106
134
16
190
100
17
45
38
31
35
32
23
12
22
44
29
30
23
25
23
34
22
26
32
35
27
23
26
29
22
21
32
28
22
24
18
21
32
24
18
28
26
22
23
18
21
15
30
26
19
24
2
35
18
25830
25875
25913
25944
25979
26011
26034
26046
26068
26112
26141
26171
26194
26219
26242
26276
26298
26324
26356
26391
26418
26441
26467
26496
26518
26539
26571
26599
26621
26645
26663
26684
26716
26740
26758
26786
26812
26834
26857
26875
26896
26911
26941
26967
26986
27010
27012
27047
27065
101
APPENDIX B (CON!TINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
MILLSTONE-3
SUSQUEHANNA-1
WOLF CREEK-1
YANKEE-ROWE-1
ZION-I
LA SALLE-I
NORTH ANNA-2
POINT BEACH-1
QUAD CITIES-I
BYRON-2
CALVERT CLF-2
DIABLO CANYON-1
FERMI-2
FARLEY-2
GINNA
HATCH-2
KEWAUNEE
LIMERICK-I
POINT BEACH-2
SURRY-1
TURKEY POINT-4
BEAVER VALLEY-I
CALLAWAY-I
CATAWBA-I
HOPE CREEK
INDIAN POINT-3
PRAIRIE IS-1
ST LUCIE-2
VOGTLE-1
DC COOK-1
DRESDEN-3
PRAIRIE IS-2
SALEM-I
GRAND GULF-I
SEQUOYAH-1
BRAIDWOOD-1
BRUNSWICK-I
CONN YANKEE
HARRIS-I
LA SALLE-2
MC GUIRE-I
MONTICELLO
OCONEE-I
OCONEE-1
OYSTER CREEK-1
PALISADES
PALO VERDE-1
QUAD CITIES-2
SAN ONOFRE-1
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1993
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
6
6
6
6
6
7
7
7
7
8
8
8
8
8
8
8
8
8
8
8
8
9
9
9
9
9
9
9
9
10
10
10
11
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
64
188
40
30
60
184
54
28
144
68
77
87
247
57
27
153
31
176
27
43
40
61
73
53
199
63
33
60
64
67
132
33
71
221
67
61
155
44
36
183
53
90
50
50
44
57
53
134
43
30
32
19
7
27
33
25
10
25
29
29
40
45
26
9
28
12
31
10
20
18
28
31
22
36
29
12
23
30
31
22
12
33
39
31
26
29
18
17
33
22
15
23
23
25
22
23
24
16
CUM. MTU
27095
27127
27146
27153
27180
27213
27238
27248
27273
27302
27331
27371
27416
27442
27451
27479
27491
27522
27532
27552
27570
27598
27629
27651
27687
27716
27728
27751
27781
27812
27834
27846
27879
27918
27949
27975
28004
28022
28039
28072
28094
28109
28132
28155
28180
28202
28225
28249
28265
102
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
SOUTH TEXAS-I
BRAIDWOOD-2
BROWNS FERRY-2
FARLEY-1
PALO VERDE-2
PEACH BOTTOM-3
RANCHO SECO-I
INDIAN POINT-1
PALO VERDE-3
PERRY-1
SAN ONOFRE-3
CLINTON-I
DRESDEN-2
SALEM-2
SEQUOYAH-2
TROJAN
PILGRIM-I
SURRY-2
WASH NUCLEAR-2
BROWNS FERRY-1
BRUNSWICK-2
DC COOK-1
MAINE YANKEE
NINE MILE POINT-I
SUSQUEHANNA
WOLF CREEK-1
ZION-I
BEAVER VALLEY-2
BYRON-I
CALVERT CLF-1
COOPER
NORTH ANNA-1
PEACH BOTTOM-2
POINT BEACH-1
SUMMER-i
CATAWBA-2
HATCH-I
MC GUIRE-2
OCONEE-2
POINT BEACH-2
ROBINSON-2
TURKEY POINT-3
DAVIS BESSE-1
DUANE ARNOLD
GINNA
KEWAUNEE
MILLSTONE-2
NINE MILE POINT-2
PERRY-2
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1
2
2
2
2
2
2
3
3
3
3
4
4
4
4
4
5
5
5
6
6
6
6
6
6
6
6
7
7
7
7
7
7
7
7
8
8
8
8
8
8
8
9
9
9
9
9
9
9
ASMBLY
39
61
190
60
48
177
51
57
44
178
75
137
132
64
67
40
165
44
134
189
155
73
61
147
187
40
60
54
70
77
94
54
190
27
57
48
155
54
50
27
40
40
51
100
27
31
64
86
209
MTU
21
26
35
28
21
31
24
26
19
32
32
25
22
29
31
18
29
20
24
34
29
29
23
26
32
19
27
25
30
29
17
25
34
10
26
20
29
23
23
10
17
18
24
18
9
12
26
34
38
CUM. MTU
28286
28312
28347
28375
28396
28427
28451
28477
28496
28528
28560
28585
28607
28636
28667
28685
28714
28734
28758
28792
28821
28850
28873
28899
28931
28950
28977
29002
29032
29061
29078
29103
29137
29147
29173
29193
29222
29245
29268
29278
29295
29313
29337
29355
29364
29376
29402
29436
29474
103
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
PRAIRIE IS-I
RIVER BEND-1
ST LUCIE-I
FITZPATRICK
PRAIRIE IS-2
VT YANKEE-I
FORT CALHOUN
BEAVER VALLEY-i
DIABLO CANYON-2
MILLSTONE-I
ARK NUCLEAR-I
BIG ROCK POINT
BYRON-2
LA SALLE-I
MILLSTONE-3
NORTH ANNA-2
PALO VERDE-I
QUAD CITIES-I
SOUTH TEXAS-I
SURRY-1
YANKEE-ROWE-I
WATERFORD-3
ZION-I
FARLEY-2
HATCH-2
LIMERICK-1
PALO VERDE-2
SAN ONOFRE-2
ARK NUCLEAR-2
CALLAWAY-1
CATAWBA-1
HOPE CREEK
MONTICELLO
PALO VERDE-3
SEQUOYAH-I
ST LUCIE-2
TURKEY PT-4
CRYSTAL RIVER-3
DRESDEN-3
CONN YANKEE
MC GUIRE-1
OCONEE-1
TROJAN
VOGTLE-I
SALEM-1
WASH NUCLEAR-2
DC COOK-1
GRAND GULF-1
HARRIS-I
1994
1994
1994
1994
1994
1994
1994
1994
1994
1994
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
9
1
9
10
10
10
11
12
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
3
3
3
3
3
3
3
3
3
4
4
4
4
4
4
4
5
5
6
6
6
ASMBLY
33
175
63
147
33
107
31
61
87
167
49
18
82
194
79
57
56
141
49
47
35
81
63
63
162
191
57
78
60
85
56
232
95
63
71
64
43
63
139
50
56
53
42
78
86
142
70
234
43
MTU
12
32
24
26
12
20
11
28
40
30
23
2
35
35
35
26
24
25
27
22
8
34
29
29
30
34
25
33
25
36
24
42
16
27
33
25
20
29
23
21
24
25
19
36
31
25
32
4i
20
CUM. MTU
29486
29518
29542
29568
29580
29600
29611
29639
29679
29709
29732
29734
29769
29804
29839
29865
29889
29914
29941
29963
29971
30005
30034
30063
30093
30127
30152
30185
30210
30246
30270
30312
30328
30355
30388
30413
30433
30462
30485
30506
30530
30555
30574
30610
30641
30666
30698
30739
30759
104
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
INDIAN PT-3
OCONEE-3
WOLF CREEK-I
BRUNSWICK-I
LA SALLE-2
POINT BEACH-I
QUAD CITIES-2
CALVERT CLF-2
COOPER
DIABLO CANYON-I
FERMI-2
PEACH BOTTOM-3
POINT BEACH-2
RANCHO SECO-I
BRAIDWOOD-1
INDIAN PT-2
PERRY-I
PRAIRIE IS-1
BRAIDWOOD-2
CLINTON-I
DRESDEN-2
GINNA
KEWAUNEE
PRAIRIE IS-2
SALEM-2
SURRY-2
DC COOK-2
SAN ONOFRE-3
BEAVER VALLEY-I
CATAWBA-2
MC GUIRE-2
NORTH ANNA-I
OCONEE-2
OYSTER CREEK-I
PALISADES
PALO VERDE-I
PEACH BOTTOM-2
SAN ONOFRE-I
SOUTH TEXAS-1
SUMMER-I
SUSQUEHANNA-2
THREE MILE IS-I
ZION-2
BEAVER VALLEY-2
BIG ROCK-I
BRUNSWICK-2
HATCH-I
MILLSTONE-2
PALO VERDE-2
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1995
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
6
6
6
7
7
7
7
8
8
8
8
8
8
8
9
9
9
9
10
10
10
10
10
10
10
11
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
ASMBLY
MTU
CUM. MTU
67
53
42
163
194
28
140
81
101
95
257
190
28
54
83
60
191
35
86
188
139
28
33
35
71
47
78
78
54
41
47
48
45
30
50
47
169
39
35
50
166
53
53
46
15
137
138
57
44
31
25
19
30
35
10
25
30
18
44
47
34
10
25
35
27
25
12
36
34
23
9
13
12
33
22
32
33
25
17
20
22
21
23
19
21
30
14
19
23
29
25
24
21
2
26
26
23
19
30790
30815
30834
30864
30899
30909
30934
30964
30982
31026
31073
31107
31117
31142
31177
31204
31229
31241
31277
31311
31334
31343
31356
31368
31401
31423
31455
31488
31513
31530
31550
31572
31593
31616
31635
31656
31686
31700
31719
31742
31771
31796
31820
31841
31843
31869
31895
31918
31937
105
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ROBINSON-2
SAN ONOFRE-2
DAVIS-BESSE-1
DUANE ARNOLD
PALO VERDE-3
PERRY-2
RIVER BEND-I
ST LUCIE-1
TURKEY PT-3
FITZPATRICK
TROJAN
BROWNS FERRY-2
FORT CALHOUN
MILLSTONE-1
VT YANKEE-1
WASH NUCLEAR-2
BROWNS FERRY-3
BYRON-2
CATAWBA-1
MILLSTONE-3
MONTICELLO
NINE MILE POINT-1
SUSQUEHANNA-1
WATERFORD-3
WOLF CREEK-I
YANKEE ROWE-1
ZION-I
ARK NUCLEAR-1
CALVERT CLF-1
LA SALLE-1
NORTH ANNA-2
POINT BEACH-1
QUAD CITIES-I
FARLEY-2
HATCH-2
LIMERICK-I
MC GUIRE-1
OCONEE-1
POINT BEACH-2
SURRY-1
TURKEY PT-4
ARK NUCLEAR-2
CALLAWAY-1
COOPER
HOPE CREEK
NINE MILE POINT-2
PRAIRIE IS-I
ST LUCIE-2
VOGTLE-1
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
1996
2
2
3
3
3
3
3
3
3
4
4
5
5
5
5
5
6
6
6
6
6
6
6
6
6
6
6
7
7
7
7
7
7
8
8
8
8
8
8
8
8
9
9
9
9
9
9
9
9
ASMBLY
MTU
CUM. MTU
36
66
45
94
40
223
155
56
35
134
35
170
32
149
95
120
170
55
47
58
80
141.
168
74
36
27
53
42
68
163
49
23
118
51
136
161
47
45
24
39
36
50
65
86
169
180
29
53
58
16
28
21
17
17
41
29
21
16
24
16
31
12
26
17
21
31
23
20
27
14
24
29
31
17
6
24
19
26
30
23
8
21
24
25
29
20
21
9
18
17
21
27
16
31
32
10
21
27
31953
31981
32002
32019
32036
32077
32106
32127
32143
32167
32183
32214
32226
32252
32269
32290
32321
32344
32364
32391
32405
32429
32458
32489
32506
32512
32536
32555
32581
32611
32634
32642
32663
32687
32712
32741
32761
32782
32791
32809
32826
32847
32874
32890
32921
32953
32963
32984
33011
106
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
DRESDEN-3
GINNA
SALEM-I
BROWNS FERRY-1
BYRON-I
DC COOK-1
DIABLO CANYON-2
GRAND GULF-1
BRAIDWOOD-1
BROWNS FERRY-2
CONN YANKEE-I
HARRIS-1
LA SALLE-2
OCONEE-3
PALO VERDE-I
QUAD CITIES-2
SOUTH TEXAS-1
BRAIDWOOD-2
FARLEY-1
PALO VERDE-2
PEACH BOTTOM-3
RANCHO SECO-1
BIG ROCK-I
BRUNSWICK-I
CATAWBA-2
DC COOK-2
INDIAN POINT-3
PALO VERDE-3
PERRY-I
SAN ONOFRE-3
SEQUOYAH-1
CLINTON-1
CRYSTAL RIVER-3
DRESDEN-2
MC GUIRE-2
OCONEE-2
SALEM-2
SEQUOYAH-2
TROJAN
MILLSTONE-2
PILGRIM-1
SURRY-2
WASH NUCLEAR-2
INDIAN POINT-2
MAINE YANKEE
OYSTER CREEK-I
SUSQUEHANNA-2
WOLF CREEK-1
ZION-2
1996
1996
1996
1996
1996
1996
1996
1996
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
10
11
11
12
12
12
12
12
1
1
1
1
1
1
1
1
1
2
2
2
2
2
3
3
3
3
3
3
3
3
3
4
4
4
4
4
4
4
4
5
5
5
5
6
6
6
6
6
6
117
23
60
169
62
59
80
197
83
183
42
53
176
48
51
29
58
87
58
56
172
46
16
148
66
70
61
67
231
71
64
211
58
126
51
48
77
64
39
59
154
43
129
54
59
120
180
38
58
20
8
28
31
26
27
37
35
35
31
17
25
32
22
22
23
31
37
27
29
30
21
2
28
28
28
28
29
42
30
29
39
27
21
22
22
35
30
18
24
27
20
23
24
22
21
31
18
27
CUM. MTU
33031
33039
33067
33098
33124
33151
33188
33223
33258
33289
33306
33331
33363
33385
33407
33430
33461
33498
33525
33554
33584
33605
33607
33635
33663
33691
33719
33748
33790
33820
33849
33888
33915
33936
33958
33980
34015
34045
34063
34087
34114
34134
34157
34181
34203
34224
34255
34273
34300
107
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
BEAVER VALLEY-2
NORTH ANNA-I
PEACH BOTTOM-2
POINT BEACH-I
SUMMER-I
BEAVER VALLEY-I
CALVERT CLF-2
DIABLO CANYON-1
HATCH-1
POINT BEACH-2
ROBINSON-2
TURKEY POINT-3
CATAWBA-1
DAVIS BESSE-1
DUANE ARNOLD
PERRY-2
PRAIRIE IS-1
RIVER BEND-I
ST LUCIE-1
COOPER
FITZPATRICK
PRAIRIE IS-2
VT YANKEE-I
FORT CALHOUN
BROWNS FERRY-I
BYRON-I
GINNA
KEWAUNEE
MC GUIRE-I
OCONEE-1
ARK NUCLEAR-2
BROWNS FERRY-3
BRUNSWICK-2
BYRON-2
GINNA
KEWAUNEE
LA SALLE-I
MILLSTONE-3
MONTICELLO
NORTH ANNA-2
PALISADES
PALO VERDE-I
QUAD CITIES-1
SAN ONOFRE-I
SOUTH TEXAS-I
SUSQUEHANNA-1
WATERFORD-3
ZION-I
FARLEY-2
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1997
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
7
7
7
7
7
8
8
8
8
8
8
8
9
9
9
9
9
9
9
10
10
10
10
11
12
12
12
12
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
73
52
183
25
54
59
73
83
148
26
48
38
51
49
96
244
32
167
61
90
140
32
102
36
184
67
25
30
51
48
55
185
150
68
26
30
177
68
87
52
55
52
129
42
41
182
74
58
58
34
24
32
9
25
27
27
38
27
9
20
17
22
23
17
45
11
31
23
16
25
11
19
13
33
28
8
11
22
22
23
34
28
29
9
11
32
31
15
24
21
23
23
16
22
31
31
27
27
CUM. MTU
34334
34358
34390
34399
34424
34451
34478
34516
34543
34552
34572
34589
34611
34634
34651
34696
34707
34738
34761
34777
34802
34813
34832
34845
34878
34906
34914
34925
34947
34969
34992
35026
35054
35083
35092
35103
35135
35166
35181
35205
35226
35249
35272
35288
35310
35341
35372
35399
35426
108
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
HATCH-2
LIMERICK-1
PALO VERDE-2
SAN ONOFRE-2
THREE MILE IS-I
ARK NUCLEAR-I
CALLOWAY-I
DC COOK-1
HOPE CREEK
PALO VERDE-3
ST LUCIE-2
TURKEY PT-4
BIG ROCK-I
DRESDEN-3
CONN YANKEE
OCONEE-3
SURRY-1
TROJAN
VOGTLE-I
MILLSTONE-I
SALEM-I
WASH NUCLEAR-2
CATAWBA-2
GRAND GULF-I
NINE MILE PT-1
WOLF CREEK-I
CALVERT CLF-1
LA SALLE-2
POINT BEACH-I
QUAD CITIES-2
FERMI-2
FARLEY-1
MC GUIRE-2
PEACH BOTTOM-3
POINT BEACH-2
RANCHO SECO-1
BRAIDWOOD-1
BRUNSWICK-I
INDIAN PT-3
MILLSTONE-2
NINE MILE PT-2
PERRY-I
PRAIRIE IS-I
BRAIDWOOD-2
CLINTON-I
DRESDEN-2
PRAIRIE IS-2
SALEM-2
COOPER
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
1998
2
2
2
2
2
3
3
3
3
3
3
3
4
4
4
4
4
4
4
5
5
5
6
6
6
6
7
7
7
7
8
8
8
8
8
8
9
9
9
9
9
9
9
10
10
10
10
10
11
148
175
50
66
58
45
78
64
215
52
58
39
16
128
40
49
43
39
68
163
72
130
51
215
145
38
74
177
26
128
236
56
52
177
25
49
68
149
61
58
218
196
32
68
162
128
32
72
94
MTU
27
31
22
28
27
21
33
29
39
23
23
18
2
21
16
23
20
18
31
29
33
23
22
38
25
18
28
32
9
23
43
26
22
31
9
23
29
28
28
24
23
36
11
29
30
21
11
33
17
CUM. MTU
35453
35484
35506
35534
35561
35582
35615
35644
35683
35706
35729
35747
35749
35770
35786
35809
35829
35847
35878
35907
35940
35963
35985
36023
36048
36066
36094
36126
36135
36158
36201
36227
36249
36280
36289
36312
36341
36369
36397
36421
36444
36480
36491
36520
36550
36571
36582
36615
36632
109
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
SURRY-2
CATAWBA-1
DIABLO CANYON-2
YANKEE ROWE-1
BROWNS FERRY-1
DC COOK-2
HARRIS-I
MAINE YANKEE
MC GUIRE-1
NORTH ANNA-1
OCONEE-1
OYSTER CREEK-1
PALO VERDE-I
PEACH BOTTOM-2
SOUTH TEXAS-1
SUMMER-1
SUSQUEHANNA-2
ZION-I
BEAVER VALLEY-1
BEAVER VALLEY-2
GINNA
HATCH-I
KEWAUNEE
OCONEE-2
PALO VERDE-2
ROBINSON-2
BYRON-I
DAVIS BESSE-1
DUANE ARNOLD
INDIAN POINT-2
PALO VERDE-3
PERRY-2
RIVER BEND-I
SAN ONOFRE-3
ST LUCIE-I
TURKEY PT-3
CRYSTAL RIVER-3
FITZPATRICK
MONTICELLO
SEQUOYAH-2
TROJAN
FT CALHOUN
PILGRIM-i
VT YANKEE-I
WASH NUCLEAR-2
BROWNS FERRY-2
BROWNS FERRY-3
BRUNSWICK-2
BYRON-2
1998
1998
1998
1998
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
11
12
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
4
4
4
4
4
5
5
5
5
6
6
6
6
43
52
84
76
179
69
33
57
50
50
47
128
50
179
35
53
175
56
58
45
25
145
29
47
43
37
66
47
95
54
39
195
164
64
69
38
57
137
83
63
38
33
152
99
125
179
178
145
51
20
22
39
17
32
28
15
22
21
23
22
12
22
32
19
25
30
26
27
21
8
27
11
22
19
16
28
22
17
24
17
36
30
27
23
17
26
24
14
29
18
12
27
18
22
32
32
27
22
CUM. MTU
36652
36674
36713
36730
36762
36790
36805
36827
36848
36871
36893
36905
36927
36959
36978
37003
37033
37059
37086
37107
37115
37142
37153
37175
37194
37210
37238
37260
37277
37301
37318
37354
37384
37411
37434
37451
37477
37501
37515
37544
37562
37574
37601
37619
37641
37673
37705
37732
37754
110
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
MILLSTONE-3
SUSQUEHANNA-1
WATERFORD-3
WOLF CREEK-1
ZION-I
LA SALLE-1
NORTH ANNA-2
POINT BEACH-1
QUAD CITIES-1
THREE MILE IS-I
CALVERT CLF-2
DIABLO CANYON-I
FARLEY-2
CONN YANKEE
HATCH-2
LIMERICK-1
OCONEE-3
POINT BEACH-2
TURKEY POINT-4
CALLAWAY-I
HOPE CREEK
PALISADES
PRAIRIE IS-I
ST LUCIE-2
VOGTLE-I
DRESDEN-3
PRAIRIE IS-2
SALEM-I
COOPER
MC GUIRE-2
SURRY-1
ARK NUCLEAR-1
BRAIDWOOD-1
CATAWBA-I
LA SALLE-2
PALO VERDE-1
QUAD CITIES-2
SAN ONOFRE-1
SOUTH TEXAS-I
ARK NUCLEAR-2
BRAIDWOOD-2
CATAWBA-2
FARLEY-1
KEWAUNEE
MILLSTONE-2
PALO VERDE-2
PEACH BOTTOM-3
RANCHO SECO-1
SAN ONOFRE-2
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
1999
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
6
6
6
6
6
7
7
7
7
7
8
8
8
8
8
8
8
8
8
9
9
9
9
9
9
10
10
11
12
12
12
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
57
175
79
38
57
173
50
25
126
56
72
85
54
42
144
170
47
25
38
69
162
53
32
57
57
124
31
70
87
50
41
48
73
55
188
55
136
44
50
48
78
59
62
32
62
57
182
52
76
26
30
33
18
26
31
23
9
22
26
27
39
25
17
27
30
22
9
17
29
29
21
11
22
26
21
11
32
16
21
19
21
31
23
34
24
24
16
27
24
33
25
29
12
25
25
32
24
32
37780
37810
37843
37861
37887
37918
37941
37950
37972
37998
38025
38064
38089
38106
38133
38163
38185
38194
38211
38240
38269
38290
38301
38323
38349
38370
38381
38413
38429
38450
38469
38490
38521
38544
38578
38602
38626
38642
38669
38693
38726
38751
38780
38792
38817
38842
38874
38898
38930
111
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
DC COOK-1
GINNA
PALO VERDE-3
PERRY-I
SEQUOYAH-I
BRUNSWICK-1
CLINTON-I
DRESDEN-2
MC GUIRE-1
OCONEE-1
SALEM-2
TROJAN
MILLSTONE-I
OCONEE-2
SURRY-2
WASH NUCLEAR-2
BIG ROCK-I
DC COOK-2
HARRIS-I
INDIAN PT-3
MAINE YANKEE
NINE MILE PT-i
SUSQUEHANNA-2
WOLF CREEK-I
ZION-2
BEAVER VALLEY-2
CALVERT CLF-1
NORTH ANNA-1
PEACH BOTTOM-2
POINT BEACH-I
SUMMER-I
FERMI-2
HATCH-I
MONTICELLO
POINT BEACH-?
ROBINSON-2
TURKEY PT-3
BEAVER VALLEY-1
BYRON-I
DAVIS BESSE-1
DUANE ARNOLD
INDIAN PT-2
NINE MILE PT-2
PERRY-2
PRAIRIE IS-I
RIVER BEND-I
ST LUCIE-1
FITZPATRICK
PRAIRIE IS-2
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
.2000
2000
2000
2000
2000
2000
2000
MONTH
ASMBLY
MTU
3
3
3
3
3
4
4
4
4
4
4
4
5
5
5
5
6
6
6
6
6
6
6
6
6
7
7
7
7
7
7
8
8
8
8
8
8
9
9
9
9
9
9
9
9
9
9
10
10
68
27
59
209
68
158
187
135
55
52
76
41
171
51
44
136
18
75
45
65
63
159
192
41
61
62
78
55
195
28
59
247
156
92
27
41
41
63
72
52
109
58
222
260
34
180
66
150
34
31
9
26
38
31
30
34
23
23
24
35
19
30
24
20
24
2
30
21
12
24
27
33
19
28
29
29
25
35
10
27
45
29
16
10
18
19
29
30
24
19
26
38
47
12
33
25
27
12
CUM. MTU
38961
38970
38996
39034
39065
39095
39129
39152
39175
39199
39234
39253
39283
39307
39327
39351
39353
39383
39404
39416
39440
39467
39500
39519
39547
39576
39605
39630
39665
39675
39702
39747
39776
39792
39802
39820
39839
39868
39898
39922
39941
39967
40005
40052
40064
40097
40122
40149
40161
112
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
VT YANKEE-I
FT CALHOUN
COOPER
DIABLO CANYON-2
SEQUOYAH-2
BROWNS FERRY-2
BYRON-2
CONN YANKEE
LA SALLE-I
MC GUIRE-2
MILLSTONE-3
NORTH ANNA-2
OCONEE-3
OYSTER CREEK-I
PALISADES
QUAD CITIES-I
SOUTH TEXAS-I
SUSQUEHANNA-1
WATERFORD-3
ZION-I
BRUNSWICK-2
FARLEY-2
HATCH-2
KEWAUNEE
LIMERICK-I
PALO VERDE-2
THREE MILE IS-I
CALLAWAY-1
CATAWBA-1
HOPE CREEK
PALO VERDE-3
SAN ONOFRE-3
ST LUCIE-2
TURKEY PT-4
CRYSTAL RIVER-3
DRESDEN-3
GINNA
TROJAN
VOGTLE-I
CATAWBA-2
MILLSTONE-2
PILGRIM-1
SALEM-I
WASH NUCLEAR-2
BROWNS FERRY-1
BROWNS FERRY-3
GRAND GULF-1
WOLF CREEK-1
BIG ROCK-1
2000
2000
2000
2000
2000
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
10
11
12
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
3
3
3
3
3
3
3
4
4
4
4
4
5
5
5
5
5
6
6
6
6
7
110
38
96
92
69
182
72
42
75
50
70
51
47
139
54
127
45
177
73
57
147
58
146
29
171
51
58
76
51
216
55
71
58
38
57
125
25
38
67
56
58
156
67
128
181
182
211
38
16
20
14
17
42
32
33
30
17
32
21
32
24
22
25
21
22
24
31
30
26
27
27
27
11
30
22
27
32
22
39
24
30
23
17
26
21
8
18
31
24
24
28
31
23
33
33
37
18
2
CUM. MTU
40181
40195
40212
40254
40286
40319
40349
40366
40398
40419
40451
40475
40497
40522
40543
40565
40589
40620
40650
40676
40703
40730
40757
40768
40798
40820
40847
40879
40901
40940
40964
40994
41017
41034
41060
41081
41089
41107
41138
41162
41186
41214
41245
41268
41301
41334
41371
41389
41391
113
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
LA SALLE-2
POINT BEACH-I
QUAD CITIES-2
CALVERT CLF-2
DIABLO CANYON-1
FARLEY-1
MC GUIRE-1
OCONEE-I
PEACH BOTTOM-3
POINT BEACH-2
RANCHO SECO-1
SURRY-1
BRAIDWOOD-I
OCONEE-2
PERRY-1
ARK NUCLEAR-2
BRAIDWOOD-2
CLINTON-I
DC COOK-1
DRESDEN-2
PRAIRIE IS-2
SALEM-2
SURRY-2
COOPER
MILLSTONE-I
ARK NUCLEAR-I
BEAVER VALLEY-I
BRUNSWICK-I
DC COOK-2
HARRIS-I
MAINE YANKEE
MONTICELLO
NORTH ANNA-I
PALO VERDE-I
PEACH BOTTOM-2
SAN ONOFRE-1
SOUTH TEXAS-I
SUMMER-I
SUSQUEHANNA-2
ZION-2
BEAVER VALLEY-2
HATCH-I
KEWAUNEE
PALO VERDE-2
ROBINSON-2
SAN ONOFRE-2
BYRON-1
DAVIS BESSE-I
DUANE ARNOLD
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2001
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
7
7
7
8
8
8
8
8
8
8
8
8
9
9
9
10
10
10
10
10
10
10
11
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
3
3
3
175
25
128
72
82
54
51
48
172
25
45
41
72
48
169
55
73
160
64
125
32
67
42
88
160
39
51
131
62
32
52
77
45
45
161
37
39
48
159
51
44
130
26
49
43
63
60
42
86
32
9
23
27
38
25
22
22
30
9
21
19
30
22
31
23
31
29
29
21
11
31
19
16
28
18
24
24
25
15
20
13
21
20
29
14
21
22
27
23
20
24
10
21
18
27
25
20
15
41423
41432
41455
41482
41520
41545
41567
41589
41619
41628
41649
41668
41698
41720
41751
41774
41805
41834
41863
41884
41895
41926
41945
41961
41989
42007
42031
42055
42080
42095
42115
42128
42149
42169
42198
42212
42233
42255
42282
42305
42325
42349
42359
42380
42398
42425
42450
42470
42485
114
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
INDIAN PT-3
PALO VERDE-3
PERRY-2
RIVER BEND-I
SEQUOYAH-I
ST LUCIE-1
TURKEY PT-3
FITZPATRICK
CONN YANKEE
MC GUIRE-2
SEQUOYAH-2
SURRY-I
TROJAN
FT CALHOUN
GINNA
VT YANKEE-I
WASH NUCLEAR-2
BYRON-2
CATAWBA-I
INDIAN PT-2
MILLSTONE-3
NINE MILE PT-i
OCONEE-3
OYSTER CREEK-I
SUSQUEHANNA-1
WATERFORD-3
WOLF CREEK-I
ZION-i
BROWNS FERRY-2
BRUNSWICK-2
CALVERT CLF-I
LA SALLE-I
NORTH ANNA-2
POINT BEACH-I
QUAD CITIES-I
THREE MILE IS-1
CATAWBA-2
FERMI-2
FARLEY-2
HATCH-2
LIMERICK-I
POINT BEACH-2
CALLAWAY-1
HOPE CREEK
NINE MILE PT-2
PRAIRIE IS-I
ST LUCIE-2
VOGTLE-1
DRESDEN-3
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
3
3
3
3
3
3
3
4
4
4
4
4
4
5
5
5
5
6
6
6
6
6
6
6
6
6
6
6
7
7
7
7
7
7
7
7
8
8
8
8
8
8
9
9
9
9
9
9
10
54
39
200
148
57
54
34
124
38
45
56
37
34
31
23
90
119
49
45
48
64
131
42
121
158
71
34
51
162
131
65
156
45
23
113
51
39
206
48
130
153
22
62
156
165
28
51
63
112
25
17
36
27
26
21
16
22
16
19
26
17
16
11
8
17
20
21
19
22
30
22
19
21
27
30
16
23
29
24
24
28
21
8
20
24
16
37
22
24
27
8
26
28
28
10
20
29
19
CUM. MTU
42510
42527
42563
42590
42616
42637
42653
42675
42691
42710
42736
42753
42769
42780
42788
42805
42825
42846
42865
42887
42917
42939
42958
42979
43006
43036
43052
43075
43104
43128
43152
43180
43201
43209
43229
43253
43269
43306
43328
43352
43379
43387
43413
43441
43469
43479
43499
43528
43547
115
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
PRAIRIE IS-2
SALEM-1
BROWNS FERRY-1
COOPER
DIABLO CANYON-2
GRAND GULF-I
BIG ROCK-I
BRAIDWOOD-1
LA SALLE-2
MC GUIRE-I
MILLSTONE-2
OCONEE-I
PALISADES
PALO VERDE-I
QUAD CITIES-2
SOUTH TEXAS-1
ARK NUCLEAR-2
BRAIDWOOD-2
FARLEY-1
KEWAUNEE
OCONEE-2
PALO VERDE-2
PEACH BOTTOM-3
RANCHO SECO-1
BROWNS FERRY-3
PALO VERDE-3
PERRY-I
SAN ONOFRE-3
TURKEY POINT-4
CLINTON-I
CRYSTAL RIVER-3
DRESDEN-2
MONTICELLO
SALEM-2
TROJAN
MILLSTONE-1
PILGRIM-1
SURRY-2
WASH NUCLEAR-2
DC COOK-1
GINNA
HARRIS-I
MAINE YANKEE
SUSQUEHANNA-2
WOLF CREEK-I
ZION-2
BRUNSWICK-I
NORTH ANNA-1
PEACH BOTTOM-2
2002
2002
2002
2002
2002
2002
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
MONTH
7
ASMBLY
28
59
161
79
73
188
18
53
99
58
66
54
61
58
145
39
62
69
65
34
55
48
194
55
206
52
203
81
44
172
65
142
98
77
44
180
173
48
145
73
29
39
67
201
44
66
167
58
205
MTU
10
27
29
14
34
33
2
22
36
25
27
25
24
25
26
21
26
29
30
13
25
21
34
25
37
23
37
35
20
31
30
24
17
35
20
32
30
22
26
34
10
18
25
35
20
30
31
27
36
CUM. MTU
43557
43584
43613
43627
43661
43694
43696
43718
43754
43779
43806
43831
43855
43880
43906
43927
43953
43982
44012
44025
44050
44071
44105
44130
44167
44190
44227
44262
44282
44313
44343
44367
44384
44419
44439
44471
44501
44523
44549
44583
44593
44611
44636
44671
44691
44721
44752
44779
44815
116
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
POINT BEACH-I
SUMMER
BEAVER VALLEY-I
CALVERT CLF-2
DIABLO CANYON-1
CONN YANKEE
HATCH-I
MC GUIRE-2
POINT BEACH-2
ROBINSON-2
TURKEY POINT-3
BYRON-I
CATAWBA-I
DAVIS BESSE-I
DUANE ARNOLD
INDIAN POINT-3
PERRY-I
PRAIRIE IS-I
RIVER BEND-I
ST LUCIE-I
FITZPATRICK
PRAIRIE IS-2
VERMONT YANKEE-1
CATAWBA-2
FT CALHOUN
COOPER
FERMI-2
SEQUOYAH-1
BEAVER VALLEY-2
BYRON-2
LA SALLE-I
MILLSTONE-3
NORTH ANNA-2
OCONEE-3
OYSTER CREEK-1
PALO VERDE-I
QUAD CITIES-i
SAN ONOFRE-I
SOUTH TEXAS-i
SUSQUEHANNA-I
WATERFORD-3
ZION-I
BIG ROCK-i
BROWNS FERRY-2
BRUNSWICK-2
FARLEY-2
HATCH-2
KEWAUNEE
LIMERICK-I
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2003
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
7
7
8
8
8
8
8
8
8
8
8
9
9
9
9
9
9
9
9
9
10
10
10
11
11
12
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
ASMBLY
29
62
67
84
98
48
166
58
28
44
44
70
58
55
108
69
333
36
189
69
159
37
115
49
41
101
259
73
58
67
183
67
53
50
147
53
134
44
35
187
77
60
16
190
154
60
153
31
180
MTU
10
29
31
32
45
20
31
25
10
19
20
32
25
26
19
31
61
13
35
26
28
13
21
21
15
18
47
34
27
28
33
31
24
23
26
23
24
16
19
32
32
27
2
34
29
28
28
12
32
CUM. MTU
44825
44854
44885
44917
44962
44982
45013
45038
45048
45067
45087
45119
45144
45170
45189
45220
45281
45294
45329
45355
45383
45396
45417
45438
45453
45471
45518
45552
45579
45607
45640
45671
45695
45718
45744
45767
45791
45807
45826
45858
45890
45917
45919
45953
45982
46010
46038
46050
46082
117
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
PALO VERDE-2
SAN ONOFRE-2
THREE MILE IS-I
ARK NUCLEAR-I
CALLAWAY-1
HOPE CREEK
INDIAN POINT-2
PALO VERDE-3
ST LUCIE-=2
DRESDEN-3
MC GUIRE-1
MILLSTONE-2
OCONEE-1
SEQUOYAH-2
TROJAN
VOGTLE-1
OCONEE-2
SALEM-1
WNP-2
BROWNS FERRY-1
DE COOK-2
GRAND SULF-1
NINE MILE PT-1
WOOLF CREEK-I
CALVERT CLF-I
GINNA
LA SALLE-2
POINT BEACH-I
QUAD CITIES-2
FARLEY-1
MONTICELLO
PEACH BOTTOM-3
POINT BEACH-2
RANCHO SECO-1
SURRY-1
TURKEY PT-4
BRAIDWOOD-1
NINE MILE PT-2
PALISADES
PERRY-1
PRAIRIE IS-I
BRAIDWOOD-2
CLINTON-I
DRESDEN-2
PRAIRIE IS-2
SALEM-2
SURRY-2
COOPER
DIABLO CANYON-2
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2004
2
2
2
3
3
3
3
3
3
4
4
4
4
4
4
4
5
5
5
6
6
6
6
6
7
7
7
7
7
8
8
8
8
8
8
8
9
9
9
9
9
10
10
10
10
10
11
12
12
43
74
60
46
79
210
57
52
60
131
53
60
50
67
40
67
42
70
134
189
73
220
153
40
76
27
183
26
133
58
90
179
27
50
43
40
67
221
56
163
33
67
141
132
33
70
44
92
90
19
32
28
21
33
38
26
23
23
22
22
24
23
31
18
31
19
32
24
34
29
39
26
19
29
9
33
9
23
27
15
32
10
23
20
18
28
38
22
30
12
28
26
22
12
32
20
17
41
CUM. MTU
46101
46133
46161
46182
46215
46253
46279
46302
46325
46347
46369
46393
46416
46447
46465
46496
46515
46547
46571
46605
46634
46673
46699
46718
46747
46756
46789
46798
46821
46848
46863
46895
46905
46928
46948
46966
46994
47032
47054
47084
47096
47124
47150
47172
47184
47216
47236
47253
47294
118
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ROBINSON-2
ARK NUCLEAR-2
BEAVER VALLEY-I
BROWNS iERRY-3
CATAWBA-I
CONN YANKEE
HARRIS-I
MAINE YANKEE
MC GUIRE-2
NORTH ANNA-I
PALO VERDE-I
PEACH BOTTOM-2
SOUTH TEXAS-1
SUMMER-1
SUSQUEHANNA-2
ZION-2
BRUNSWICK-I
CATAWBA-2
FERMI-2
HATCH-I
KEWAUNEE
PALO VERDE-2
BIG ROCK-I
BYRON-I
DC COOK-1
DAVIS BESSE-1
DUANE ARNOLD
PALO VERDE-3
PERRY-2
RIVER BEND-I
SAN ONOFRE-3
SEQUOYAH-1
ST LUCIE-I
TURKEY PT-3
CRYSTAL RIVER-3
FITZPATRICK
OCONEE-3
SURRY-I
TROJAN
FT CALHOUN
MILLSTONE-I
PILGRIM-I
VT YANKEE-I
WASH NUCLEAR-2
BYRON-2
INDIAN PT-3
MILLSTONE-3
OYSTER CREEK-I
SUSQUEHANNA-I
2004
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
4
4
4
4
4
5
5
5
5
5
6
6
6
6
6
ASMBLY
MTU
CUM. MTU
40
47
51
160
45
37
29
51
45
45
45
158
36
47
156
50
129
3!5
204
129
26,
44
14
59
56
42
89
35
127
145
63
56
53
33
51
123
42
36
34
30
140
135
88
111
46
53
58
119
156
17
20
24
29
19
15
13
19
19
21
20
28
19
22
27
23
24
15
37
24
10
19
2
25
26
20
16
15
23
27
27
26
20
15
24
22
19
17
16
11
25
24
16
20
19
24
27
21
27
47311
47331
47355
47384
47403
47418
47431
47450
47469
47490
47510
47538
47557
47579
47606
47629
47653
47668
47705
47729
47739
47758
47760
47785
47811
47831
47847
47862
47885
47912
47939
47965
47985
48000
48024
48046
48065
48082
48098
48109
48134
48158
48174
48194
48213
48237
48264
48285
48312
119
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
WATERFORD-3
WOLF CREEK-1
ZION-I
BRUNSWICK-2
LA SALLE-I
NORTH ANNA-2
PT BEACH-1
QUAD CITIES-1
THREE MILE IS-1
CALVERT CLF-2
DIABLO CANYON-I
FARLEY-2
GINNA
HATCH-2
LIMERICK-1
MC GUIRE-I
OCONEE-I
PT BEACH-2
BEAVER VALLEY-2
CALLAWAY-1
HOPE CREEK
INDIAN PT-2
OCONEE-2
PRAIRIE IS-I
ST LUCIE-2
VOGTLE-1
DRESDEN-3
PRAIRIE IS-2
ARK NUCLEAR-1
SALEM-1
DC COOK-2
COOPER
GRAND GULF-i
SEQUOYAH-2
BRAIDWOOD-1
BROWNS FERRY 2
LA SALLE-2
MILLSTONE-2.
MONTICELLO
PALISADES
PALO VERDE-1
QUAD CITIES-2
SAN ONOFRE-1
SOUTH TEXAS-I
BRAIDWOOD-2
FARLEY-1
KEWAUNEE
PALO VERDE-2
PEACH BOTTOM-3
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
200E
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2005
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
6
6
6
7
7
7
7
7
7
8
8
8
8
8
8
8
8
8
9
9
9
9
9
9
9
9
10
10
11
11
12
12
12
12
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
71
33
51
129
153
45
23
112
51
64
72
48
22
128
150
45
42
22
41
62
144
48
42
28
50
58
109
28
40
59
62
76
184
56
59
200
190
64
95
59
56
140
46
46
72
63
33
55
188
MTU
30
15
23
24
28
21
8
20
24
24
33
22
7
24
27
19
19
8
19
26
26
22
19
10
19
27
18
10
19
27
25
14
32
26
25
36
35
26
16
23
24
25
17
25
30
29
13
24
33
CUM. MTU
48342
48357
48380
48404
48432
48453
48461
48481
48505
48529
48562
48584
48591
48615
48642
48661
48680
48688
48707
48733
48759
48781
48800
48810
48829
48856
48874
48884
48903
48930
48955
48969
49001
49027
49052
49088
49123
49149
49165
49188
49212
49237
49254
49279
49309
49338
49351
49375
49408
120
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
RANCHO SECO-1
ROBINSON-2
SAN ONOFRE-2
CATAWBA-1
PALO VERDE-3
PERRY-1
SAN ONOFRE-3
TURKEY PT-4
BIG ROCK-I
CATAWBA-2
CLINTON-I
DRESDEN-2
CONN YANKEE
MC GUIRE-2
SALEM-2
TROJAN
WASH NUCLEAR-2
BROWNS FERRY-3
HARRIS-1
MAINE YANKEE
NINE MILE PT-1
SUSQUEHANNA-2
WOLF CREEK-1
ZION-2
CALVERT CLF-1
NORTH ANNA-I
PEACH BOTTOM-2
POINT BEACH-1
SUMMER-i
BEAVER VALLEY-I
HATCH-1
OCONEE-3
POINT BEACH-2
TURKEY PT-3
BRUNSWICK-I
BYRON-I
DAVIS BESSE-1
DUANE ARNOLD
GINNA
NINE MILE PT-2
PERRY-2
PRAIRIE IS-I
RIVER BEND-I
ST LUCIE-I
DC COOK-1
FITZPATRICK
VT YANKEE-I
FT CALHOUN
SURRY-2
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2006
2
2
2
3
3
3
3
3
4
4
4
4
4
4
4
4
5
6
6
6
6
6
6
6
7
7
7
7
7
8
8
8
8
8
9
9
9
9
9
9
9
9
9
9
10
10
10
11
11
ASMBLY
51
52
77
55
56
214
78
42
84
56
180
137
46
57
73
42
139
201
46
63
161
197
42
64
81
55
200
29
59
63
162
52
28
40
161
73
53
106
28
239
285
36
182
66
69
153
112
39
46
MTU
24
21
33
23
24
39
33
19
11
24
33
23
19
24
34
19
24
36
21
24
28
34
19
29
30
25
35
10
27
29
30
24
10
18
30
31
25
19
9
41
52
13
34
25
32
27
21
14
21
CUM. MTU
49432
49453
49486
49509
49533
49572
49605
49624
49635
49659
49692
49715
49734
49758
49792
49811
49835
49871
49892
49916
49944
49978
49997
50026
50056
50081
50116
50126
50153
50182
50212
50236
50246
50264
50294
50325
50350
50369
50378
50419
50471
50484
50518
50543
50575
50602
50623
50637
50658
121
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
BROWNS FERRY-I
COOPER
DIABLO CANYON-2
MC GUIRE-1
ARK NUCLEAR-I
BYRON-2
LA SALLE-I
MILLSTONE-3
NORTH ANNA-2
OCONEE-1
OYSTER CREE-I
PALO VERDE-1
QUAD CITIES-I
SOUTH TEXAS-1
SURRY-1
SUSQUEHANNA-1
WATERFORD-3
ZION-I
ARK NUCLEAR-2
BEAVER VALLEY-2
BRUNSWICK-2
FERMI-2
FARLEY-2
HATCH-2
KEWAUNEE
LIMERICK-I
OCONEE-2
PALO VERDE-2
THREE MILE IS-I
CALLOWAY-2
DC COOK-2
HOPE CREEK
INDIAN PT-3
MONTICELLO
PALO VERDE-3
SAN ONOFRE-3
SEQUOYAH-I
ST LUCIE-2
CRYSTAL RIVER-3
DRESDEN-3
SEQUOYAH-2
TROJAN
VOGTLE-1
MILLSTONE-I
SALEM-1
WASH NUCLEAR-2
CATAWBA-1
GRAND GULF-I
INDIAN PT-2
2006
2006
2006
2006
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
12
12
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
4
4
4
4
4
5
5
5
6
6
6
201
98
91
56
50
63
191
64
56
52
154
56
139
30
46
195
81
63
59
55
162
252
63
159
33
187
53
38
63
84
76
199
67
95
49
71
64
63
63
137
71
42
65
175
74
139
56
231
60
36
18
42
24
23
27
35
30
26
24
27
24
25
16
21
34
34
29
24
25
30
46
29
30
13
33
25
17
29
36
31
36
31
16
21
30
29
25
29
23
33
19
30
31
34
24
24
41
27
CUM. MTU
50694
50712
50754
50778
50801
50828
50863
50893
50919
50943
50970
50994
51019
51035
51056
51090
51124
51153
51177
51202
51232
51278
51307
51337
51350
51383
51408
51425
51454
51490
51521
51557
51588
51604
51625
51655
51684
51709
51738
51761
51794
51813
51843
51874
51908
51932
51956
51997
52024
122
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
MILLSTONE-2
WOLF CREEK-I
CATAWBA-2
LA SALLE-2
POINT BEACH-1
QUAD CITIES-2
CALVERT CLF-2
DIABLO CANYON-I
FARLEY-I
CONN YANKEE
MC GUIRE-2
PEACH BOTTOM-3
POINT BEACH-2
RANCHO SECO-1
ROBINSON-2
TURKEY PT-4
BRAIDWOOD-1
PERRY-I
PRAIRIE IS-I
BRAIDWOOD-2
CLINTON-i
DRESDEN-2
GINNA
PRAIRIE IS-2
SALEM-2
COOPER
HARRIS-I
MAINE YANKEE
MC GUIRE-1
OCONEE-3
PALISADES
PALO VERDE-1
PEACH BOTTOM-2
SAN ONOFRE-1
SOUTH TEXAS-I
SUMMER-I
SUSQUEHANNA-2
ZION-2
BEAVER VALLEY-1
HATCH-I
KEWAUNEE
PALO VERDE-2
SAN ONOFRE-2
BYRON-i
DAVIS BESSE-I
DUANE ARNOLD
PALO VERDE-3
PERRY-2
RIVER BEND-I
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
6
6
7
7
7
7
8
8
8
8
8
8
8
8
8
8
9
9
9
10
10
10
10
10
10
12
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
3
3
3
3
3
3
63
42
49
191
28
139
80
94
61
46
56
186
27
54
42
42
64
146
35
64
123
137
28
35
73
91
26
50
43
40
47
43
156
36
31
46
154
49
49
126
25
41
60
57
41
82
32
165
143
26
19
21
35
10
24
30
43
28
19
24
33
10
25
18
19
27
27
12
27
22
23
9
12
34
17
12
19
18
19
18
19
28
13
17
21
27
22
23
23
9
18
26
24
19
15
14
30
26
52050
52069
52090
52125
52135
52159
52189
52232
52260
52279
52303
52336
52346
52371
52389
52408
52435
52462
52474
52501
52523
52546
52555
52567
52601
52618
52630
52649
52667
52686
52704
52723
52751
52764
52781
52802
52829
52851
52874
52897
52906
52924
52950
52974
52993
53008
53022
53052
53078
123
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
SAN ONOFRE-3
ST LUCIE-I
TURKEY PT-3
BRUNSWICK-1
FITZPATRICK
OCONEE-I
TROJAN
BROWNS FERRY-1
BROWNS FERRY-2
FORT CALHOUN
OCONEE-2
PILGRIM-1
SURRY-2
VT YANKEE-I
WASH NUCLEAR-2
BYRON-2
DC COOK-1
MILLSTONE-3
MONTICELLO
NINE MILE PT-i
OYSTER CREEK-I
SUSQUEHANNA-I
WOLF CREEK-1
ZION-I
BEAVER VALLEY-2
BRUNSWICK-2
CALVERT CLF-I
LA SALLE-I
NORTH ANNA-2
POINT BEACH-I
QUAD CITIES-I
THREE MILE IS-I
FARLEY-2
HATCH-2
LIMERICK-I
POINT BEACH-2
CALLOWAY-I
HOPE CREEK
INDIAN PT-3
NINE MILE PT-2
PRAIRIE IS-1
ST LUCIE-2
VOGTLE-I
CATAWBA-2
DC COOK-2
DRESDEN-3
PRAIRIE IS-2
GINNA
SALEM-1
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
3
3
3
4
4
4
4
5
5
5
5
5
5
5
5
6
6
6
6
6
6
6
6
6
7
7
7
7
7
7
7
7
8
8
8
8
9
9
9
9
9
9
9
10
10
10
10
11
11
ASMBLY
61
51
33
126
122
40
32
155
156
29
41
131
35
87
109
42
55
52
73
127
117
154
32
49
37
126
62
147
44
22
108
49
47
124
148
22
60
134
52
140
27
48
51
41
60
107
27
22
57
MTU
26
19
15
24
22
19
15
28
28
10
19
23
16
16
19
18
25
24
13
22
21
27
15
22
17
34
23
27
20
8
19
23
22
23
26
8
25
24
24
24
10
19
24
17
24
18
10
7
26
CUM. MTU
53104
53123
53138
53162
53184
53203
53218
53246
53274
53284
53303
53326
53342
53358
53377
53395
53420
53444
53457
53479
53500
53527
53542
53564
53581
53615
53638
53665
53685
53693
53712
53735
53757
53780
53806
53814
53839
53863
53887
53911
53921
53940
53964
53981
54005
54023
54033
54040
54066
124
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
ARK NUCLEAR-2
BROWNS FERRY-3
COOPER
DIABLO CANYON-2
GRAND GULF-I
CONN YANKEE
MC GUIRE-2
MILLSTONE-1
SEQUOYAH-1
SEQUOYAH-2
BRAIDWOOD-1
BROWNS FERRY-2
CATAWBA-I
LA SALLE-2
MILLSTONE-2
PALO VERDE-1
QUAD CITIES-2
SOUTH TEXAS-I
WATERFORD-3
BRAIDWOOD-2
FERMI-2
FARLEY-1
KEWAUNEE
PALO VERDE-2
PEACH BOTTOM-3
RANCHO SECO-1
ROBINSON-2
ARK NUCLEAR-1
INDIAN PT-2
PALO VERDE-3
PERRY-i
TURKEY PT-4
CLINTON-I
CRYSTAL RIVER-3
DRESDEN-2
SEQUOYAH-2
TROJAN
WASH NUCLEAR-2
HARRIS-I
MAINE YANKEE
OCONEE-3
SUSQUEHANNA-2
WOLF CREEK-I
ZION-2
PEACH BOTTOM-2
POINT BEACH-1
SUMMER-1
CALVERT CLF-2
DIABLO CANYON-1
2008
2008
2008
2008
2008
2008
2008
2008
2008
2008
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
12
12
12
12
12
12
12
12
12
12
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
3
3
3
3
3
4
4
4
4
4
5
6
6
6
6
6
6
7
7
7
8
8
47
156
73
75
180
157
43
136
54
55
56
191
54
185
59
54
137
44
84
71
247
60
30
55
181
51
51
47
55
53
206
36
175
60
135
63
38
135
45
59
49
191
40
61
191
25
56
75
88
20
28
13
34
32
65
18
24
25
25
24
35
23
34
24
24
24
24
35
30
45
28
11
24
32
24
21
22
25
23
37
17
32
28
23
29
18
24
21
22
23
33
19
28
34
9
26
28
40
54086
54114
54127
54161
54193
54258
54276
54300
54325
54350
54374
54409
54432
54466
54490
54514
54538
54562
54597
54627
54672
54700
54711
54735
54767
54791
54812
54834
54859
54882
54919
54936
54968
54996
55019
55048
55066
55090
55111
55133
55156
55189
55208
55236
55270
55279
55305
55333
55373
125
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
HATCH-I
OCONEE-1
POINT BEACH-2
TURKEY PT-3
BEAVER VALLEY-1
BYRON-I
DAVIS BESSE-I
DUANE ARNOLD
MONTICELLO
PALISADES
PERRY-I
PRAIRIE IS-I
RIVER BEND-1
ST LUCIE-I
FITZPATRICK
PRAIRIE IS-2
VT YANKEE-I
BROWNS FERRY-I
FT CALHOUN
SURRY-2
BRUNSWICK-I
DC COOK-i
COOPER
GINNA
OYSTER CREEK-I
SAN ONOFRE-2
ARK NUCLEAR-2
BYRON-2
GINNA
LA SALLE-I
MC GUIRE-2
MILLSTONE-3
NORTH ANNA-I
OCONEE-2
PALO VERDE-I
QUAD CITIES-I
SOUTH TEXAS-1
SUSQUEHANNA-1
ZION-i
BEAVER VALLEY-2
BRUNSWICK-2
CATAWBA-2
FARLEY-2
HATCH-2
KEWAUNEE
LIMERICK-i
NORTH ANNA-2
PALO VERDE-2
THREE MILE IS-i
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2009
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
8
8
8
8
9
9
9
9
9
9
9
9
9
9
10
10
10
11
11
11
12
12
12
12
12
12
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
152
50
25
34
61
70
50
99
91
59
253
33
175
61
146
32
108
192
36
42
552
67
84
26
560
74
59
58
28
90
56
58
56
53
56
140
34
195
63
50
161
45
63
160
32
186
57
43
63
28
23
9
16
28
30
23
18
16
23
46
12
32
23
26
11
20
35
13
19
103
31
15
9
99
32
24
25
9
35
24
27
26
25
24
25
18
34
29
23
30
19
29
30
12
33
26
19
29
CUM. MTU
55401
55424
55433
55449
55477
55507
55530
55548
55564
55587
55633
55645
55677
55700
55726
55737
55757
55792
55805
55824
55927
55958
55973
55982
56081
56113
56137
56162
56171
56206
56230
56257
56283
56308
56332
56357
56375
56409
56438
56461
56491
56510
56539
56569
56581
56614
56640
56659
56688
126
APPENDIX B (CONTINUED)
ACTUAL AND PREDICTED FACILITY-SPECIFIC SPENT FUEL DISCHARGE
FUEL ORIGINATOR
YEAR
MONTH
ASMBLY
MTU
CUM. MTU
CALLOWAY-I
CATAWBA-I
HOPE CREEK
PALO VERDE-3
SAN ONOFRE-3
SEQUOYAH-I
ST LUCIE-2
DRESDEN-3
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TROJAN
VOGTLE-1
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PILGRIM-I
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BROWNS FERRY-3
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INDIAN PT-3
MILLSTONE-2
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WATERFORD-3
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LA SALLE-2
POINT BEACH-1
QUAD CITIES-2
FERMI-2
FARLEY-I
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PEACH BOTTOM-3
POINT BEACH-2
RANCHO SECO-1
2010
2010
2010
2010
2010
2010
2010
2010
2010
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2010
2010
2010
2010
2010
2010
2010
2010
2010
2010
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131
APPENDIX D
DECOMMISSIONING DATES
REACTORS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
ARK NUCLEAR 1-1
ARK NUCLEAR 1-2
BEAVER VALLEY-I
BEAVER VALLEY-2
BIG ROCK POINT
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-1
BROWNS FERRY-2
BROWNS FERRY-3
BRUNSWICK-1
BRUNSWICK-2
BYRON-I
BYRON-2
CALLAWAY-I
CALVERT CLF-1
CALVERT CLF-2
CATAWBA-1
CATAWBA-2
CLINTON-I
CONN YANKEE
COOPER
CRYSTAL RIVER-3
D C COOK-1
D C COOK-2
DAVIS-BESSE-1
DIABLO CANYON-1
DIABLO CANYON-2
DRESDEN-2
DRESDEN-3
DUANE ARNOLD
FARLEY-1
FARLEY-2
FERMI-2
FITZPATRICK
FORT CALHOUN-I
GINNA
GRAND GULF-I
HARRIS-I
HATCH-I
HATCH-2
HOPE CREEK-1
INDIAN POINT-2
INDIAN POINT-3
KEWAUNEE
LA SALLE-1
LA SALLE-2
DATE
2014
2020
2016
2028
2005
2027
2028
2014
2015
2017
2015
2009
2025
2027
2024
2015
2017
2025
2027
2027
2008
2014
2017
2015
2018
2018
2025
2026
2010
2011
2015
2017
2021
2025
2015
2013
2010
2025
2027
2014
2019
2027
2014
2016
2014
2022
2024
REACTORS
48 LIMERICK-1
49 MAINE YANKEE
50 MC GUIRE-1
51 MC GUIRE-2
52 MILLSTONE-I
53 MILLSTONE-2
54 MILLSTONE-3
55 MONTICELLO
56 NINE MILE PT-I
57 NINE MILE PT-2
58 NORTH ANNA-I
59 NORTH ANNA-2
60 OCONEE- 1
61 OCONEE-2
62 OCONEE-3
63 OYSTER CREEK
64 PALISADES
65 PALO VERDE-1
66 PALO VERDE-2
67 PALO VERDE-3
68 PEACHBOTTOM- 2
69 PEACHBOTTOM-3
70 PERRY-I
71 PILGRIM-I
72 POINT BEACH-I
73 POINT BEACH-2
74 PRAIRIE IS-I
75 PRAIRIE IS-2
76 QUAD CITIES-I
77 QUAD CITIES-2
78 RANCHO SECO-I
79 RIVER BEND-1
80 ROBINSON-2
81 SALEM-1
82 SALEM-2
83 SAN ONOFRE-1
84 SAN ONOFRE-2
85 SAN ONOFRE-3
86 SEQUOYAH-1
87 SEQUOYAH-2
88 S. TEXAS PROJ-I
89 ST. LUCIE-1
90 ST. LUCIE-2
91 SUMMER
92 SURRY-1
93 SURRY-2
94 SUSQUEHANNA-1
DATE
2026
2012
2021
2024
2010
2015
2026
2011
2010
2027
2018
2020
2013
2014
2014
2009
2011
2026
2027
2028
2014
2014
2026
2012
2010
2012
2013
2014
2013
2013
2015
2026
2011
2017
2021
2008
2023
2024
2021
2022
2028
2016
2023
2024
2012
2013
2023
132
APPENDIX D (CONTINUED)
DECOMMISSIONING DATES
REACTORS
95
96
97
98
99
100
101
102
103
104
105
106
107
SUSQUEHANNA-2
THREE MILE IS-i
TROJAN
TURKEY POINT-3
TURKEY POINT-4
VERMONT YANKEE
VOGTLE-I
WATERFORD-3
WNP-2
WOLF CREEK
YANKEE-ROWE
ZION-I
ZION-2
DATE
2025
2014
2016
2012
2013
2012
2028
2025
2034
2025
1998
2013
2014
APPENDIX E.1
FACILITY-SPECIFIC 1988 SPENT FUEL STORAGE CAPACITY (IN ASSEMBLIES)
REACTORS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
ARK NUCLEAR 1-1
ARK NUCLEAR 1-2
BEAVER VALLEY-I
BEAVER VALLEY-2
BIG ROCK POINT
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-I
BROWNS FERRY-2
BROWNS FERRY-3
BRUNSWICK-1
BRUNSWICK-2
BYRON-I
BYRON-2
CALLAWAY-1
CALVERT CLF-I
CALVERT CLF-2
CATAWBA-1
CATAWBA-2
CLINTON-1
CONN YANKEE
COOPER
CRYSTAL RIVER-3
D C COOK-1
D C COOK-2
DAVIS-BESSE-1
DIABLO CANYON-I
DIABLO CANYON-2
DRESDEN-2
DRESDEN-3
DUANE ARNOLD
FARLEY-1
FARLEY-2
FERMI-2
FITZPATRICK
FORT CALHOUN-I
GINNA
GRAND GULF-I
HARRIS-I
HATCH-I
HATCH-2
HOPE CREEK-1
INDIAN POINT-2
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
LA SALLE-2
REACTORS
CAPACITY
968
988
1088
833
441
525
525
3462
3462
3471
1803
1839
525
525
1344
915
915
1918
1918
2512
1172
2366
676
1025
1025
735
270
270
3537
3537
2050
1407
1407
2305
2244
729
1016
2324
1352
3013
3013
1108
980
840
610
1080
1080
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
,85
86
87
88
89
90
91
92
93
94
LIMERICK-I
MAINE YANKEE
MC GUIRE-I
MC GUIRE-2
MILLSTONE-1
MILLSTONE-2
MILLSTONE-3
MONTICELLO
NINE MILE PT-I
NINE MILE PT-2
NORTH ANNA-1
NORTH ANNA-2
OCONEE-I
OCONEE-2
OCONEE.-3
OYSTER CREEK
PALISADES
PALO VERDE-I
PALO VERDE-2
PALO VERDE-3
PEACHBOTTOM-2
PEACHBOTTOM-3
PERRY-1
PILGRIM-1
POINT BEACH-I
POINT BEACH-2
PRAIRIE IS-I
PRAIRIE IS-2
QUAD CITIES-1
QUAD CITIES-2
RANCHO SECO-I
RIVER BEND-1
ROBINSON-2
SALEM-I
SALEM-2
SAN ONOFRE-1
SAN ONOFRE-2
SAN ONOFRE-3
SEQUOYAH-1
SEQUOYAH-2
S. TEXAS PROJ-1
ST. LUCIE-I
ST. LUCIE-2
SUMMER
SURRY-1
SURRY-2
SUSQUEHANNA-1
133
CAPACITY
2040
1476
1963
1963
2184
1112
756
2237
2776
4049
869
868
706
705
705
2600
892
907
907
907
3819
3819
4020
2320
751
751
693
693
3777
3777
1080
2680
544
1170
1170
216
800
800
693
693
196
728
1076
1276
522
522
2840
134
APPENDIX E.1 (CONTINUED)
FACILITY-SPECIFIC CURRENT SPENT FUEL STORAGE CAPACITY (IN ASSEMBLIES)
REACTORS
95
96
97
98
99
100
101
102
103
104
105
106
107
SUSQUEHANNA-2
THREE MILE IS-I
TROJAN
TURKEY POINT-3
TURKEY POINT-4
VERMONT YANKEE
VOGTLE-I
WATERFORD-3
WNP-2
WOLF CREEK
YANKEE-ROWE
ZION-I
ZION-2
CAPACITY
2840
752
1406
1404
636
2000
288
1088
2658
1340
721
1056
1056
APPENDIX E.2
PREDICTED FACILITY-SPECIFIC REQUIRED SPENT FUEL STORAGE CAPACITY
FOR A REPOSITORY OPENING DATE OF 1998 (IN ASSEMBLIES)
REACTORS
1 ARK NUCLEAR 1-1
2 ARK NUCLEAR 1-2
3
BEAVER VALLEY-1
4
BEAVER VALLEY-2
5 BIG ROCK POINT
BRAIDWOOD-1
6
7
BRAIDWOOD-2
8
BROWNS FERRY-1
BROWNS FERRY-2
9
10 BROWNS FERRY-3
11 BRUNSWICK-1
12 BRUNSWICK-2
13 BYRON-i
14 BYRON-2
15 CALLAWAY-1
16 CALVERT CLF-117 CALVERT CLF-2
18 CATAWBA-1
19 CATAWBA-2
20 CLINTON-i
21 CONN YANKEE
22 COOPER
23 CRYSTAL RIVER-3
24 D C COOK-1
25 D C COOK-2
26 DAVIS-BESSE-1
27 DIABLO CANYON-I
28 DIABLO CANYON-2
29 DRESDEN-2
3U DRESDEN-3
31 DUANE ARNOLD
32 FARLEY-1
33 FARLEY-2
34 FERMI-2
35 FITZPATRICK
36 FORT CALHOUN-i
37 GINNA
38 GRAND GULF-I
39 HARRIS-1
40 HATCH-I
41 HATCH-2
42 HOPE CREEK-I
43 INDIAN POINT-2
44 INDIAN POINT-3
45 KEWAUNEE
46 LA SALLE-I
47 LA SALLE-2
CAPACITY
968
988
1088
833
441
1050*
1050*
3462
3462
3471
3606*
3678*
1050*
1050*
1344
1348*
1347*
1918
1918
2512
1172
2366
1275*
2050*
2050*
1470*
1324*
1324*
3537
3537
2050
1407
1407
4610*
2744
729
1016
4348*
1352
3013
3013
3976*
980
840
970*
2346*
2475*
REACTORS
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
LIMERICK-1
MAINE YANKEE
MC GUIRE-1
MC GUIRE-2
MILLSTONE-1
MILLSTONE-2
MILLSTONE-3
MONTICELLO
NINE MILE PT-1
NINE MILE PT-2
NORTH ANNA-I
NORTH ANNA-2
OCONEE-1
OCONEE-2
OCONEE-3
OYSTER CREEK
PALISADES
PALO VERDE-1
PALO VERDE-2
PALO VERDE-3
PEACHBOTTOM-2
PEACHBOTTOM-3
PERRY-1
PILGRIM-1
POINT BEACH-I
POINT BEACH-2
PRAIRIE IS-I
PRAIRIE IS-2
QUAD CITIES-I
QUAD CITIES-2
RANCHO SECO-1
RIVER BEND-1
ROBINSON-2
SALEM-1
SALEM-2
SAN ONOFRE-1
SAN ONOFRE-2
SAN ONOFRE-3
SEQUOYAH-1
SEQUOYAH-2
S. TEXAS PROJ-1
ST. LUCIE-1
ST. LUCIE-2
SUMMER
SURRY-1
SURRY-2
SUSQUEHANNA-1
135
CAPACITY
4080*
1476
1963
1963
3284*
1112
1836*
2237
2776
4049
869
868
1094*
1093*
1093*
2600
1356*
1814*
1814*
1814*
3819
3819
4020
2320
751
751
1248*
1247*
3777
3777
1080
2680
544
1170
1170
216
1550*
1550*
1386*
1386*
1969*
1706*
1076
1276
1044*
1044*
2840
136
APPENDIX E.2 (CONTINUED)
PREDICTED FACILITY-SPECIFIC REQUIRED SPENT FUEL STORAGE CAPACITY
FOR A REPOSITORY OPENING DATE OF 1998 (IN ASSEMBLIES)
REACTORS
95
96
97
98
99
100
101
102
103
104
105
106
107
SUSQUEHANNA-2
THREE MILE IS-1
TROJAN
TURKEY POINT-3
TURKEY POINT-4
VERMONT YANKEE
VOGTLE-I
WATERFORD-3
WNP-2
WOLF CREEK
YANKEE-ROWE
ZION-1
ZION-2
CAPACITY
2840
761*
1406
1404
1404*
2000
2288*
1088
2658
1340
721
1056
1056
* INDICATES CHANGE FROM CURRENT STORAGE (APPENDIX E.1)
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APPENDIX G
140
PROGRAM XS
C
C
C
C
THE PURPOSE OF THIS PROGRAM IS TO CALCULATE THE AMOUNT OF STORAGE
SHORTFALL THAT WILL BE GENERATED (INTERMS OF EXCESS ASSEMBLIES)
IN THE EXISTING REACTOR CAPACITY IF THERE IS A DELAY IN THE
NATIONAL HIGH-LEVEL WASTE PROGRAM.
CHARACTER DECIDE
CHARACTER*25 REACTORS(107)
REAL ACCEPT(23,107),ASMBLY(23,107),CPCTY(107),DECOM(107),FULL(107)
REAL TOTAL(107)
REAL EXTRA,REPORT
INTEGER I,J,K,L,M,N,OPEN,YEAR,YRSOPEN
COMMON/NAME/REACTORS
COMMON/INFOA/ACCEPT,ASMBLY,CPCTY,DECOM,EXTRA,FULL,I
COMMON/INFOB/OPEN,REPORT,TOTAL,YEAR,YRSOPEN
C
C
C
UNIT 2 IS ASSIGNED TO THE DEFAULT LINE PRINTER. IT CAN BE REASSIGNED
IF DESIRED. THE FILES REACTORS, FULL, ASMBLY, DECOM, AND ACCEPT MUST
EXIST FOR THE PROGRAM TO OPERATE.
OPEN
OPEN
OPEN
OPEN
OPEN
OPEN
C
(UNIT=2,FILE='LPT1:')
(UNIT=3,FILE='REACTORS',STATUS='OLD')
(UNIT=4,FILE='FULL',STATUS='OLD')
(UNIT=5,FILE='ASMBLY',STATUS='OLD')
(UNIT=6,FILE='DECOM',STATUS='OLD')
(UNIT=7,FILE='ACCEPT',STATUS='OLD')
THESE STATEMENTS LOAD THE FILES INTO THE LOCAL VARIABLE ARRAYS.
WRITE (*,1120)
READ (3,*) (REACTORS(I),I=1,107)
WRITE (*,1130)
READ (4,*) (FULL(I),I=1,107)
WRITE (*,1120)
READ (5,*) ((ASMBLY(I,J),I=1,23),J=1,107)
WRITE (*,1130)
READ (6,*) (DECOM(I),I=1,107)
WRITE (*,1120)
READ (7,*) ((ACCEPT(I,J),I=1,23),J=1,107)
WRITE (*,1130)
C
C
THIS LOOP SETS THE INITIAL VALUE OF THE ARRAYS TOTAL TO ZERO AND
CPCTY (WHICH IS THE TOTAL STORAGE CAPACITY AT A GIVEN SITE) TO FULL.
10 CONTINUE
DO 15, I=1,107
TOTAL(I)=O
CPCTY(I)=FULL(I)
15 CONTINUE
WRITE (*,1000)
WRITE (*,1001)
APPENDIX G (CONTINUED)
141
READ (*,1010) OPEN
C
C
C
SINCE DATA IS ONLY AVAILABLE TO THE YEAR 2020, THIS IS THE LATEST
YEAR THAT THIS MODEL CAN EVALUATE. AN ERROR MESSAGE IS GENERATED
IF A YEAR LATER THAN 2020 IS SELECTED.
IF (OPEN .LE. 2020) GOTO 20
WRITE (*,1020)
GOTO 10
20 WRITE (2,1030)
WRITE (2,1040)
YEAR=1
YRSOPEN=O
C
C
THIS LOOP PERFORMS THE CALCULATIONS BY CALLING TWO SUBROUTINES, ONE FOR
BEFORE THE DEPOSITORY OPENS AND ONE FOR AFTER IT OPENS.
DO 30, I=1998,2020
WRITE (2,1050) I
IF (I .LT. OPEN) CALL BEFORE
C
C
C
ONCE THE REPOSITORY IS OPENED, THE SECOND SUBROUTINE IS CALLED. IN
ADDITION, THE VARIABLE THAT IS KEEPING TRACK OF THE NUMBER OF YEARS
THAT THE REPOSITORY HAS BEEN OPEN IS INCREMENTED.
IF (I .GE. OPEN) YRSOPEN=YRSOPEN+1
IF (I .GE. OPEN) CALL AFTER
C
AFTER THE YEARLY TOTALS HAVE BEEN CALCULATED, THE YEAR IS INCREMENTED.
YEAR=YEAR+1
30 CONTINUE
WRITE (2,1060) OPEN
WRITE (2,1090)
WRITE (*,1070)
READ (*,1080) DECIDE
IF (DECIDE .EQ. 'Y') GOTO 10
1000 FORMAT ('+ENTER THE YEAR THAT THE DISPOSAL SITE OPENS-')
1001 FORMAT (' THIS MUST BE LESS THAN 2020 FOR THIS MODEL: '\)
1010 FORMAT (14)
1020 FORMAT (' THE YEAR MUST BE LESS THAN OR EQUAL TO 2020.')
1030 FORMAT (' THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:')
1040 FORMAT (' YEAR',10X,'FACILITY',20X,'EXCESS ASSEMBLIES')
1050 FORMAT ('0',14)
1060 FORMAT (' NO FURTHER DATA FOR REPOSITORY OPENING IN ',14,'.')
1070 FORMAT ('+DO YOU WISH TO CONTINUE (Y/N)?'\)
1080 FORMAT (Al)
1090 FORMAT ('1')
1120 FORMAT ('+LOADING FILES---PLEASE WAIT')
1130 FORMAT ('+
STOP
END
')
APPENDIX G (CONTINUED)
C
142
THIS SUBROUTINE IS CALLED IF THE REPOSITORY IS NOT YET OPENED.
SUBROUTINE BEFORE
CHARACTER*25 REACTORS(107)
REAL ACCEPT(23,107),ASMBLY(23,107),CPCTY(107),DECOM(107),FULL(107)
REAL TOTAL(107)
REAL EXTRA,REPORT
INTEGER I,J,K,L,M,N,OPEN,YEAR,YRSOPEN
COMMON/NAME/REACTORS
COMMON/INFOA/ACCEPT,ASMBLY,CPCTY,DECOM,EXTRA,FULL,I
COMMON/INFOB/OPEN,REPORT,TOTAL,YEAR,YRSOPEN
C
EXTRA IS THE TOTAL YEARLY AMOUNT GENERATED.
EXTRA=O
C
C
THIS LOOP CALCULATES THE YEARLY EXCESS, ON A PER REACTOR BASIS.
THIS IS REPEATED ONCE FOR EACH REACTOR IN THE FILE 'REACTORS'.
DO 40, K=1,107
C
C
IF THE REACTOR IN QUESTION HAS REACHED THE END OF ITS LIFETIME,
THE LOOP SKIPS TO THE NEXT REACTOR.
IF (I .GT. DECOM(K)) GOTO 40
C
C
C
C
THE TOTAL ASSEMBLIES PRESENT AT THE REACTOR IS SIMPLY THE NUMBER
THAT HAS BEEN GENERATED, SINCE NONE HAVE YET BEEN REMOVED. THE
FILE 'ASMBLY' MUST CONTAIN THE CUMULATIVE TOTAL OF ASSEMBLIES
DISCHARGED BY EACH REACTOR.
TOTAL(K)=ASMBLY(YEAR,K)
C
C
IF THE TOTAL ASSEMBLIES PRESENT IS LESS THAT THE REACTOR'S CAPACITY,
THE LOOP SKIPS TO THE NEXT REACTOR.
IF (TOTAL(K) .LE. CPCTY(K)) GOTO 40
C
C
C
THE NEXT FOUR LINES ARE EXECUTED ONLY IF AN EXCESS NUMBER OF ASSEMBLIES
EXISTS FOR THE GIVEN AMOUNT OF CAPACITY AT THE REACTOR. THE VARIABLE
REPORT IS THE NUMBER OF EXCESS ASSEMBLIES PRESENT.
REPORT=TOTAL(K)-CPCTY(K)
WRITE (2,1100) REACTORS(K),REPORT
C
ONCE A REACTOR PROVIDES ADDITIONAL STORAGE, THIS NOW BECOMES THE MAXIMUM
C
AMOUNT OF STORAGE AVAILABLE AT THE SITE. THEREFORE, CAPACITY NOW
BECOMES
C
TOTAL ASSEMBLIES ON SITE.
CPCTY(K)=TOTAL(K)
APPENDIX G (CONTINUED)
C
C
143
THE EXCESS ASSEMBLIES GENERATED AT THE CURRENT REACTOR ARE ADDED TO
THE, YEARLY TOTAL.
EXTRA=EXTRA+REPORT
40 CONTINUE
WRITE (2,1110) I,EXTRA
RETURN
1100 FORMAT (' ',15X,A25,5X,F8.2)
1110 FORMAT ('O',30X,'TOTAL EXCESS FOR ',14,': ',F8.2)
END
C
THIS SUBROUTINE IS CALLED IF THE DISPOSAL SITE IS OPEN.
SUBROUTINE AFTER
CHARACTER*25 REACTORS(107)
REAL ACCEPT(23,107),ASMBLY(23,107),CPCTY(107),DECOM(107),FULL(107)
REAL TOTAL(107)
REAL EXTRA,REPORT
INTEGER I,J,K,L,M,N,OPEN,YEAR,YRSOPEN
COMMON/NAME/REACTORS
COMMON/INFOA/ACCEPT,ASMBLY,CPCTY,DECOM,EXTRA,FULL,I
COMMON/INFOB/OPEN,REPORT,TOTAL,YEAR,YRSOPEN
EXTRA=O
DO 50, L=1,107
IF (I .GT. DECOM(L)) GOTO 50
C
C
C
C
AS OPPOSED TO THE TOTAL CALCULATED BEFORE THE REPOSITORY IS OPEN,
THE TOTAL ASSEMBLIES NOW PRESENT IS THE NUMBER OF ASSEMBLIES GENERATED
MINUS THE NUMBER THAT HAVE BEEN REMOVED BY THE DOE. AS WITH THE FILE
ASMBLY, ACCEPT MUST BE A CUMULATIVE TOTAL OF ASSEMBLIES SPENT-FUEL.
TOTAL(L)=ASMBLY(YEAR,L)-ACCEPT(YRSOPEN,L)
IF (TOTAL(L) .LE. CPCTY(L)) GOTO 50
REPORT=TOTAL(L)-CPCTY(L)
WRITE (2,1100) REACTORS(L),REPORT
CPCTY(L)=TOTAL(L)
EXTRA=EXTRA+REPORT
50 CONTINUE
WRITE (2,1110) I,EXTRA
RETURN
1100 FORMAT (' ',15X,A25,5X,F8.2)
1110 FORMAT ('O',30X,'TOTAL EXCESS FOR ',14,':',F8.2)
END
APPENDIX H.1
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 1998
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
FACILITY
EXCESS ASSEMBLIES
1998
TOTAL EXCESS FOR 1998:
.00
TOTAL EXCESS FOR 1999:
.00
TOTAL EXCESS FOR 2000:
.00
TOTAL EXCESS FOR 2001:
.00
TOTAL EXCESS FOR 2002:
.00
TOTAL EXCESS FOR 2003:
.00
TOTAL EXCESS FOR 2004:
.00
TOTAL EXCESS FOR 2005:
.00
TOTAL EXCESS FOR 2006:
.00
TOTAL EXCESS FOR 2007:
.00
TOTAL EXCESS FOR 2008:
.00
TOTAL EXCESS FOR 2009:
.00
TOTAL EXCESS FOR 2010:
.00
TOTAL EXCESS FOR 2011:
.00
TOTAL EXCESS FOR 2012:
.00
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
144
APPENDIX H.1 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 1998
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
EXCESS ASSEMBLIES
FACILITY
2013
TOTAL EXCESS FOR 2013:
.00
TOTAL EXCESS FOR 2014:
.00
TOTAL EXCESS FOR 2015:
.00
TOTAL EXCESS FOR 2016:
.00
TOTAL EXCESS FOR 2017:
.00
TOTAL EXCESS FOR 2018:
'00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2014
2015
2016
2017
2018
2019
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 1998.
145
APPENDIX H.2
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 1999
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
ZION-I
256.00
45.00
TOTAL EXCESS FOR 1999:
45.00
2000
TOTAL EXCESS FOR 2000:
2001
MILLSTONE-2
2.00
TOTAL EXCESS FOR 2001:
2002
INDIAN POINT-3
NORTH ANNA-1
NORTH ANNA-1
2.00
11.00
12.00
TOTAL EXCESS FOR 2002:
2003
.00
23.00
7.00
TOTAL EXCESS FOR 2003:
7.00
2004
TOTAL EXCESS FOR 2004:
.00
2005
LA SALLE-1
132.00
TOTAL EXCESS FOR 2005:
2006
LA SALLE-2
WNP-2
132.00
190.00
7.00
TOTAL EXCESS FOR 2006:
197.00
2007
TOTAL EXCESS FOR 2007:
.00
TOTAL EXCESS FOR 2008:
.00
2008
146
APPENDIX H.2 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 1999
YEAR
EXCESS ASSEMBLIES
FACILITY
2009
TOTAL EXCESS FOR 2009:
.00
TOTAL EXCESS FOR 2010:
.00
TOTAL EXCESS FOR 2011:
.00
TOTAL EXCESS FOR 2012:
.00
TOTAL EXCESS FOR 2013:
.00
TOTAL EXCESS FOR 2014:
.00
TOTAL EXCESS FOR 2015:
.00
TOTAL EXCESS FOR 2016:
.00
TOTAL EXCESS FOR 2017:
.00
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 1999.
147
APPENDIX H.3
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2000
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
!IERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-I
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
MILLSTONE-2
THREE MILE IS-I
ZION-I
ZION-2
INDIAN POINT-3
NORTH ANNA-I
NORTH ANNA-I
MILLSTONE-2
LA SALLE-I
LA SALLE-2
WNP-2
9.00
132.00
TOTAL EXCESS FOR 2005:
2006
58.00
9.00
TOTAL EXCESS FOR 2004:
2005
63.00
58.00
TOTAL EXCESS FOR 2003:
2004
80.00
51.00
12.00
TOTAL EXCESS FOR 2002:
2003
24.00
47.00
16.00
8.00
9.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
TOTAL EXCESS FOR 2000:
2001
256.00
190.00
139.00
132.00
148
APPENDIX H.3 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2000
YEAR
EXCESS ASSEMBLIES
FACILITY
TOTAL EXCESS FOR 2006:
2007
CLINTON-I
LA SALLE-I
LA SALLE-2
THREE MILE IS-1
WATERFORD-3
WNP-2
329.00
38.00
59.00
191.00
47.00
8.00
7.00
TOTAL EXCESS FOR 2007:
350.00
2008
TOTAL EXCESS FOR 2008:
.00
TOTAL EXCESS FOR 2009:
.00
TOTAL EXCESS FOR 2010:
.00
TOTAL EXCESS FOR 2011:
.00
TOTAL EXCESS FOR 2012:
.00
TOTAL EXCESS FOR 2013:
.00
TOTAL EXCESS FOR 2014:
.00
TOTAL EXCESS FOR 2015:
.00
TOTAL EXCESS FOR 2016:
.00
TOTAL EXCESS FOR 2017:
.00
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
149
APPENDIX H.3 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2000
YEAR
EXCESS ASSEMBLIES
FACILITY
2020
TOTAL EXCESS FOR 2020:
NO FURTHER DATA FOR REPOSITORY OPENING IN 2000.
.00
150
APPENDIX H.4
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2001
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-I
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
PILGRIM-1
THREE MILE IS-I
ZION-I
ZION-2
INDIAN POINT-3
NORTH ANNA-1
THREE MILE IS-I
ZION-I
ZION-2
MILLSTONE-2
NORTH ANNA-1
ZION-2
299.00
51.00
12.00
21.00
2.00
9.00
TOTAL EXCESS FOR 2002:
2003
282.00
3.00
47.00
95.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
21.00
58.00
2.00
95.00
151
APPENDIX H.4 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2001
YEAR
FACILITY
EXCESS ASSEMBLIES
TOTAL EXCESS FOR 2003:
2004
SALEM-I
6.00
TOTAL EXCESS FOR 2004:
2005
LA SALLE-1
NORTH ANNA-2
SALEM-I
LA SALLE-2
WNP-2
CLINTON-I
LA SALLE-I
LA SALLE-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
LA SALLE-I
THREE MILE IS-I
WATERFORD-3
BRAIDWOOD-1
60.00
11.00
TOTAL EXCESS FOR 2009:
2010
748.00
15.00
45.00
TOTAL EXCESS FOR 2008:
2009
329.00
38.00
191.00
191.00
181.00
8.00
139.00
TOTAL EXCESS FOR 2007:
2008
192.00
190.00
139.00
TOTAL EXCESS FOR 2006:
2007
6.00
132.00
35.00
25.00
TOTAL EXCESS FOR 2005:
2006
81.00
11.00
2.00
TOTAL EXCESS FOR 2010:
2.00
2011
TOTAL EXCESS FOR 2011:
.00
TOTAL EXCESS FOR 2012:
.00
TOTAL EXCESS FOR 2013:
.00
2012
2013
152
APPENDIX H.4 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2001
YEAR
FACILITY
EXCESS ASSEMBLIES
2014
TOTAL EXCESS FOR 2014:
.00
TOTAL EXCESS FOR 2015:
.00
TOTAL EXCESS FOR 2016:
.00
TOTAL EXCESS FOR 2017:
.00
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2015
2016
2017
2018
2019
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 2001.
153
APPENDIX H.5
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2002
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-I
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-I
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-i
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-I
PILGRIM-1
POINT BEACH-I
POINT BEACH-2
THREE MILE IS-1
ZION-I
ZION-2
COOPER
INDIAN POINT-3
NORTH ANNA-I
THREE MILE IS-I
ZION-I
ZION-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
417.00
79.00
123.00
12.00
51.00
51.00
51.00
TOTAL EXCESS FOR 2002:
367.00
154
APPENDIX H.5 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2002
YEAR
2003
FACILITY
FITZPATRICK
MILLSTONE-2
NORTH ANNA-1
PILGRIM-1
ZION-2
EXCESS ASSEMBLIES
15.00
66.00
58.00
21.00
24.00
TOTAL EXCESS FOR 2003:
2004
COOPER
MILLSTONE-2
SALEM-1
1.00
15.00
6.00
TOTAL EXCESS FOR 2004:
2005
LA SALLE-1
NORTH ANNA-I
NORTH ANNA-2
SALEM-1
HATCH-I
LA SALLE-2
NORTH ANNA-I
WNP-2
22.00
132.00
45.00
35.00
59.00
TOTAL EXCESS FOR 2005:
2006
184.00
271.00
49.00
190.00
4.00
139.00
TOTAL EXCESS FOR 2006:
382.00
2007
CLINTON-1
LA SALLE-I
LA SALLE-2
NORTH ANNA-2
SALEM-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
38.00
191.00
191.00
2.00
21.00
181.00
8.00
139.00
TOTAL EXCESS FOR 2007: 771.00
LA SALLE-I
SUSQUEHANNA-1
THREE MILE IS-I
WNP-2
147.00
154.00
15.00
109.00
TOTAL EXCESS FOR 2008: 425.00
2008
2009
BYRON-I
CLINTON-I
LA SALLE-2
SUSQUEHANNA-2
54.00
175.00
185.00
134.00
155
APPENDIX H.5 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2002
YEAR
EXCESS ASSEMBLIES
FACILITY
WATERFORD-3
WNP-2
84.00
3.00
TOTAL EXCESS FOR 2009:
2010
BRAIDWOOD-1
WATERFORD-3
635.00
2.00
8.00
TOTAL EXCESS FOR 2010:
10.00
2011
TOTAL EXCESS FOR 2011:
2012
.00
12.00
BRAIDWOOD-2
TOTAL EXCESS FOR 2012:
12.00
2013
TOTAL EXCESS FOR 2013:
.00
TOTAL EXCESS FOR 2014:
.00
TOTAL EXCESS FOR 2015:
.00
TOTAL EXCESS FOR 2016:
.00
TOTAL EXCESS FOR 2017:
.00
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2014
2015
2016
2017
2018
2019
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 2002.
156
APPENDIX H.6
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2003
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-I
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-I
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-1
PILGRIM-1
POINT BEACH-1
POINT BEACH-2
THREE MILE IS-I
ZION-I
ZION-2
COOPER
FORT CALHOUN-1
INDIAN POINT-2
INDIAN POINT-3
NORTH ANNA-I
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
79.00
3.00
36.00
123.00
12.00
116.00
23.00
22.00
43.00
417.00
157
APPENDIX H.6 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2003
YEAR
FACILITY
EXCESS ASSEMBLIES
THREE MILE IS-I
VERMONT YANKEE
ZION-I
ZION-2
51.00
90.00
51.00
51.00
TOTAL EXCESS FOR 2002:
2003
COOPER
FITZPATRICK
FORT CALHOUN-I
MILLSTONE-2
NORTH ANNA-I
OCONEE-1
PILGRIM-I
ZION-2
101.00
15.00
16.00
66.00
58.00
1.00
153.00
66.00
TOTAL EXCESS FOR 2003:
2004
MILLSTONE-2
SALEM-I
THREE MILE IS-I
ZION-i
HATCH-I
LA SALLE-I
NORTH ANNA-I
NORTH ANNA-2
SALEM-i
BEAVER VALLEY-I
FITZPATRICK
LA SALLE-2
NORTH ANNA-I
WNP-2
CLINTON-I
LA SALLE-I
LA SALLE-2
MILLSTONE-2
NORTH ANNA-2
SALEM-1
SALEM-2
346.00
25.00
8.00
190.00
55.00
139.00
TOTAL EXCESS FOR 2006:
2007
107.00
75.00
132.00
45.00
35.00
59.00
TOTAL EXCESS FOR 2005:
2006
476.00
60.00
6.00
30.00
11.00
TOTAL EXCESS FOR 2004:
2005
700.00
38.00
191.00
191.00
10.00
56.00
40.00
21.00
417.00
158
APPENDIX H.6 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2003
YEAR
FACILITY
SUSQUEHANNA-1
WATERFORD-3
WNP-2
EXCESS ASSEMBLIES
181.00
8.00
139.00
TOTAL EXCESS FOR 2007:
2008
LA SALLE-I
SUSQUEHANNA-1
WNP-2
147.00
154.00
109.00
TOTAL EXCESS FOR 2008:
2009
BYRON-1
CLINTON-i
LA SALLE-2
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
BRAIDWOOD-1
CLINTON-I
LA SALLE-1
LA SALLE-2
SALEM-2
SUSQUEHANNA-1
THREE MILE IS-I
WATERFORD-3
WNP-2
RIVER BEND-1
BRAIDWOOD-I
BRAIDWOOD-2
BRAIDWOOD-2
4.00
64.00
12.00
TOTAL EXCESS FOR 2012:
2013
544.00
4.00
TOTAL EXCESS FOR 2011:
2012
784.00
2.00
138.00
58.00
192.00
13.00
3.00
48.00
81.00
9.00
TOTAL EXCESS FOR 2010:
2011
410.00
54.00
175.00
185.00
17.00
134.00
84.00
135.00
TOTAL EXCESS FOR 2009:
2010
875.00
76.00
56.00
TOTAL EXCESS FOR 2013:
56.00
159
APPENDIX H.6 (CONTINUED)
160
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2003
YEAR
FACILITY
EXCESS ASSEMBLIES
2014
TOTAL EXCESS FOR 2014:
.00
TOTAL EXCESS FOR 2015:
.00
TOTAL EXCESS FOR 2016:
.00
TOTAL EXCESS FOR 2017:
.00
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2015
2016
2017
2018
2019
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 2003.
APPENDIX H.7
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2004
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-1
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-1
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-1
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
THREE MILE IS-i
ZION-I
ZION-2
COOPER
FORT CALHOUN-I
INDIAN POINT-2
INDIAN POINT-3
NORTH ANNA-1
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
79.00
3.00
36.00
123.00
12.00
116.00
23.00
22.00
43.00
417.00
161
APPENDIX H.7 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2004
YEAR
FACILITY
THREE MILE IS-I
VERMONT YANKEE
ZION-i
ZION-2
EXCESS ASSEMBLIES
51.00
90.00
51.00
51.00
TOTAL EXCESS FOR 2002:
2003
BIG ROCK POINT
COOPER
FITZPATRICK
FORT CALHOUN-1
MAINE YANKEE
MILLSTONE-2
NORTH ANNA-I
OCONEE-1
PILGRIM-i
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-2
1.00
101.00
15.00
41.00
30.00
66.00
58.00
54e00
173.00
29.00
28.00
44.00
115.00
66.00
TOTAL EXCESS FOR 2003:
2004
COOPER
MILLSTONE-2
OCONEE-2
SALcM-I
THREE MILE IS-I
ZION-I
FITZPATRICK
HATCH-I
LA SALLE-I
NORTH ANNA-I
NORTH ANNA-2
SALEM-1
THREE MILE IS-I
ZION-i
ZION-2
BEAVER VALLEY-1
FITZPATRICK
HATCH-1
288.00
123.00
103.00
132.00
45.00
35.00
59.00
21.00
2.00
8.00
TOTAL EXCESS FOR 2005:
2006
821.00
92.00
60.00
10.00
6.00
60.00
60.00
TOTAL EXCESS FOR 2004:
2005
700.00
25.00
21.00
134.00
528.00
162
APPENDIX H.7 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2004
YEAR
FACILITY
LA SALLE-2
MILLSTONE-2
NORTH ANNA-I
WNP-2
EXCESS ASSEMBLIES
190.00
19.00
55.00
139.00
TOTAL EXCESS FOR 2006:
2007
CLINTON-I
LA SALLE-i
LA SALLE-2
NORTH ANNA-2
SALEM-1
SALEM-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
38.00
191.00
191.00
56.00
74.00
21.00
181.00
8.00
139.00
TOTAL EXCESS FOR 2007:
2008
ARK NUCLEAR 1-2
BEAVER VALLEY-1
LA SALLE-i
NORTH ANNA-2
SALEM-I
SUSQUEHANNA-1
WNP-2
BEAVER VALLEY-1
BYRON-1
CLINTON-1
LA SALLE-2
OYSTER CREEK
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
BEAVER VALLEY-I
BRAIDWOOD-1
CLINTON-1
LA SALLE-i
LA SALLE-2
SALEM-2
ST LUCIE-2
512.00
8.00
54.00
175.00
185.00
100.00
71.00
134.00
84.00
135.00
TOTAL EXCESS FOR 2009:
2010
899.00
21.00
14.00
147.00
44.00
23.00
154.00
109.00
TOTAL EXCESS FOR 2008:
2009
583.00
11.00
2.00
138.00
190.00
192.00
20.00
6.00
946.00
163
APPENDIX H.7 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
STORAGE, REPOSITORY OPENING IN 2007
WITH
DEFICIT
FACILITIES
YEAR
FACILITY
SUSQUEHANNA-1
WATERFORD-3
WNP-2
EXCESS ASSEMBLIES
195.00
81.00
141.00
TOTAL EXCESS FOR 2010:
2011
BYRON-i
LA SALLE-I
RIVER BEND-1
SUSQUEHANNA-2
THREE MILE IS-I
WNP-2
70.00
50.00
172.00
186.00
56.00
1.00
TOTAL EXCESS FOR 2011:
2012
BRAIDWOOD-1
BRAIDWOOD-2
RIVER BEND-I
WATERFORD-3
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
535.00
64.00
12.00
3.00
10.00
TOTAL EXCESS FOR 2012:
2013
976.00
89.00
56.00
56.00
39.00
TOTAL EXCESS FOR 2013:
151.00
2014
TOTAL EXCESS FOR 2014:
.00
TOTAL EXCESS FOR 2015:
.00
TOTAL EXCESS FOR 2016:
.00
TOTAL EXCESS FOR 2017:
.00
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2015
2016
2017
2018
2019
2020
164
APPENDIX H.7 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2004
YEAR
FACILITY
NO FURTHER DATA FOR REPOSITORY OPENING IN 2004.
EXCESS ASSEMBLIES
165
APPENDIX H.8
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2005
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-I
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-1
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-I
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
THREE MILE IS-1
ZION-I
ZION-2
COOPER
FORT CALHOUN-i
INDIAN POINT-2
INDIAN POINT-3
NORTH ANNA-I
OYSTER CREEK
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
26.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
79.00
3.00
36.00
123.00
12.00
116.00
23.00
22.00
43.00
417.00
166
APPENDIX H.8 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2005
YEAR
FACILITY
EXCESS ASSEMBLIES
THREE MILE IS-1
VERMONT YANKEE
ZION-i
ZION-2
51.00
90.00
51.00
51.00
TOTAL EXCESS FOR 2002:
2003
BIG ROCK POINT
COOPER
FITZPATRICK
FORT CALHOUN-1
MAINE YANKEE
MILLSTONE-2
NORTH ANNA-1
OCONEE-1
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-2
1.00
101.00
15.00
41.00
30.00
66.00
58.00
54.00
173.00
29.00
28.00
44.00
115.00
66.00
TOTAL EXCESS FOR 2003:
2004
BIG ROCK POINT
COOPER
INDIAN POINT-2
MILLSTONE-2
NINE MILE PT-I
OCONEE-1
OCONEE-2
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
SALEM-1
THREE MILE IS-I
ZION-I
821.00
16.00
92.00
57.00
60.00
37.00
50.00
10.00
147.00
26.00
27.00
40.00
6.00
60.00
60.00
688.00
TOTAL EXCESS FOR 2004:
2005
COOPER
FITZPATRICK
FORT CALHOUN-1
HATCH-I
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
NORTH ANNA-I
700.00
76.00
123.00
5.00
103.00
53.00
7.00
132.00
45.00
167
APPENDIX H.8 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2005
YEAR
FACILITY
EXCESS ASSEMBLIES
NORTH ANNA-2
OCONEE-2
PEACH BOTTOM-2
PILGRIM-I
SALEM-I
SURRY-1
THREE MILE IS-i
ZION-I
ZION-2
35.00
42.00
69.00
115.00
59.00
10.00
51.00
51.00
50.00
TOTAL EXCESS FOR 2005: 1026.00
2006
BEAVER VALLEY-I
FITZPATRICK
FORT CALHOUN-I
HATCH-I
LA SALLE-2
MILLSTONE-2
NORTH ANNA-I
OCONEE-3
PEACH BOTTOM-2
WNP-2
ZION-2
25.00
153.00
3.00
162.00
190.00
64.00
55.00
30.00
12.00
139.00
22.00
TOTAL EXCESS FOR 2006:
2007
CLINTON-I
LA SALLE-I
LA SALLE-2
MILLSTONE-2
NORTH ANNA-2
SALEM-1
SALEM-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
38.00
191.00
191.00
18.00
56.00
74.00
21.00
181.00
8.00
139.00
TOTAL EXCESS FOR 2007:
2008
ARK NUCLEAR 1-2
BEAVER VALLEY-I
LA SALLE-I
NORTH ANNA-I
NORTH ANNA-2
SALEM-I
SUSQUEHANNA-1
WNP-2
855.00
21.00
49.00
147.00
43.00
44.00
57.00
154.00
109.00
917.00
168
APPENDIX H.8 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2005
YEAR
EXCESS ASSEMBLIES
FACILITY
TOTAL EXCESS FOR 2008:
2009
BEAVER VALLEY-1
BYRON-i
CLINTON-1
HATCH-i
LA SALLE-2
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
26.00
54.00
175.00
62.00
185.00
71.00
134.00
84.00
135.00
TOTAL EXCESS FOR 2009:
2010
624.00
ARK NUCLEAR 1-2
BEAVER VALLEY-I
BRAIDWOOD-1
CLINTON-1
LA SALLE-I
LA SALLE-2
NORTH ANNA-2
SALEM-2
ST LUCIE-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
926.00
24.00
11.00
2.00
138.00
190.00
192.00
3.00
74.00
6.00
195.00
81.00
141.00
TOTAL EXCESS FOR 2010: 1057.00
2011
BYRON-I
LA SALLE-i
RIVER BEND-i
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
THREE MILE IS-i
WNP-2
,
70.00
182.00
172.00
60.00
186.00
186.00
26.00
133.00
TOTAL EXCESS FOR 2011: 1015.00
2012
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-I
CLINTON-I
LA SALLE-2
RIVER BEND-I
SUSQUEHANNA-2
WATERFORD-3
64.00
12.00
69.00
152.00
178.00
171.00
186.00
83.00
169
APPENDIX H.8 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2005
YEAR
EXCESS ASSEMBLIES
FACILITY
TOTAL EXCESS FOR 2012:
2013
56.00
56.00
39.00
2.00
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
WATERFORD-3
TOTAL EXCESS FOR 2013:
2014
BEAVER VALLEY-2
BYRON-2
COOPER
PEACH BOTTOM-3
153.00
14.00
49.00
71.00
19.00
TOTAL EXCESS FOR 2014:
2015
915.00
BRAIDWOOD-2
BROWNS FERRY-2
153.00
52.00
45.00
TOTAL EXCESS FOR 2015:
97.00
2016
TOTAL EXCESS FOR 2016:
.00
TOTAL EXCESS FOR 2017:
.00
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2017
2018
2019
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 2005.
170
APPENDIX H.9
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2006
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-1
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-1
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
THREE MILE IS-I
ZION-I
ZION-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
COOPER
FORT CALHOUN-1
INDIAN POINT-2
79.00
3.00
36.00
INDIAN POINT-3
123.00
NORTH ANNA-1
OYSTER CREEK
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
12.00
116.00
23.00
22.00
43.00
417.00
171
APPENDIX H.9 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2006
YEAR
FACILITY
THREE MILE IS-i
VERMONT YANKEE
ZION-I
ZION-2
EXCESS ASSEMBLIES
51.00
90.00
51.00
51.00
TOTAL EXCESS FOR 2002:
2003
BIG ROCK POINT
COOPER
FITZPATRICK
FORT CALHOUN-I
MAINE YANKEE
MILLSTONE-2
NORTH ANNA-I
OCONEE-1
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-2
1.00
101.00
15.00
41.00
30.00
66.00
58.00
54.00
173.00
29.00
28.00
44.00
115.00
66.00
TOTAL EXCESS FOR 2003:
2004
BIG ROCK POINT
COOPER
INDIAN POINT-2
MILLSTONE-2
NINE MILE PT-I
OCONEE-1
OCONEE-2
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
SALEM-I
THREE MILE IS-I
ZION-i
BIG ROCK POINI
CONN YANKEE
COOPER
FITZPATRICK'
FORT CALHOUN-I
HATCH-I
INDIAN POINT-2
821.00
16.00
92.00
57.00
60.00
37.00
50.00
10.00
147.00
26.00
27.00
40.00
6.00
60.00
60.00
TOTAL EXCESS FOR 2004:
2005
700.00
14.00
24.00
76.00
123.00
30.00
103.00
48.00
688.00
172
APPENDIX H.9 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2006
YEAR
FACILITY
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
MAINE YANKEE
MILLSTONE-I
NORTH ANNA-1
NORTH ANNA-2
OCONEE-1
OCONEE-2
OYSTER CREEK
PEACH BOTTOM-2
PILGRIM-I
POINT BEACH-1
POINT BEACH-2
SALEM-I
SURRY-1
THREE MILE IS-1
VERMONT YANKEE
ZION-1
ZION-2
EXCESS ASSEMBLIES
53.00
7.00
132.00
51.00
65.00
45.00
35.00
42.00
42.00
119.00
69.00
135.00
23.00
22.00
59.00
28.00
51.00
88.00
51.00
50.00
TOTAL EXCESS FOR 2005:
2006
BEAVER VALLEY-I
CALVERT CLF-1
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-I
HATCH-I
KEWAUNEE
LA SALLE-2
MILLSTONE-2
NORTH ANNA-I
OCONEE-3
PEACH BOTTOM-2
PEACH BOTTOM-3
WNP-2
ZION-2
1585.00
25.00
22.00
98.00
55.00
153.00
14.00
162.00
33.00
190.00
64.00
55.00
31.00
200.00
61.00
139.00
64.00
TOTAL EXCESS FOR 2006: 1366.00
2007
CLINTON-1
LA SALLE-I
LA SALLE-2
MILLSTONE-2
NORTH ANNA-2
OCONEE-2
38.00
191.00
191.00
63.00
56.00
11.00
173
APPENDIX H.9 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2006
YEAR
FACILITY
EXCESS ASSEMBLIES
SALEM-i
SALEM-2
SUSQUEHANNA-I
THREE MILE IS-I
WATERFORD-3
WNP-2
ZION-I
74.00
21.00
181.00
33.00
8.00
139.00
14.00
TOTAL EXCESS FOR 2007: 1020.00
2008
ARK NUCLEAR 1-2
BEAVER VALLEY-I
HATCH-I
INDIAN POINT-3
LA SALLE-I
NORTH ANNA-I
NORTH ANNA-2
SALEM-1
SUSQUEHANNA-1
WNP-2
21.00
49.00
98.00
47.00
147.00
43.00
44.00
57.00
154.00
109.00
TOTAL EXCESS FOR 2008:
2009
BEAVER VALLEY-I
BROWNS FERRY-2
BYRON-1
CLINTON-1
LA SALLE-2
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
61.00
32.00
54.00
175.00
185.00
71.00
134.00
84.00
135.00
TOTAL EXCESS FOR 2009:
2010
ARK NUCLEAR 1-2
BEAVER VALLEY-I
BRAIDWOOD-1
CLINTON-I
DRESDEN-2
HATCH-2
LA SALLE-I
LA SALLE-2
MILLSTONE-2
NORTH ANNA-I
NORTH ANNA-2
SALEM-I
SALEM-2
769.00
59.00
29.00
2.00
138.00
149.00
63.00
190.00
192.00
6.00
5.00
57.00
40.00
74.00
931.00
174
APPENDIX H.9 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2006
YEAR
FACILITY
ST LUCIE-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
EXCESS ASSEMBLIES
6.00
195.00
81.00
141.00
TOTAL EXCESS FOR 2010: 1427.00
2011
BYRON-I
HATCH-2
LA SALLE-I
RIVER BEND-1
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
WNP-2
70.00
24.00
182.00
172.00
60.00
186.00
186.00
133.00
TOTAL EXCESS FOR 2011: 1013.00
2012
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-I
CLINTON-I
LA SALLE-2
RIVER BEND-1
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
64.00
12.00
69.00
152.00
178.00
171.00
14.00
186.00
83.00
131.00
TOTAL EXCESS FOR 2012: 1060.00
2013
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
CLINTON-I
LA SALLE-I
LA SALLE-2
SALEM-2
THREE MILE IS-1
WATERFORD-3
56.00
56.00
39.00
119.00
51.00
181.00
8.00
52.00
75.00
TOTAL EXCESS FOR 2013:
2014
BEAVER VALLEY-2
BYRON-2
COOPER
637.00
14.00
49.00
109.00
TOTAL EXCESS FOR 2014:
172.00
175
APPENDIX H.9 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2006
YEAR
2015
EXCESS ASSEMBLIES
FACILITY
51.00
52.00
13.00
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-2
TOTAL EXCESS FOR 2015:
2016
BEAVER VALLEY-2
BRAIDWOOD-2
22.00
52.00
TOAL EXCESS FOR 2016:
2017
116.00
BROWNS FERRY-3
74.00
111.00
TOTAL EXCESS FOR 2017:
111.00
2018
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2019
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 2006.
176
APPENDIX H.10
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2007
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-1
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-1
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-i
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-1
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
THREE MILE IS-I
ZION-I
ZION-2
COOPER
FORT CALHOUN-I
INDIAN POINT-2
INDIAN POINT-3
NORTH ANNA-i
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
79.00
3.00
36.00
123.00
12.00
116.00
23.00
22.00
43.00
417.00
177
APPENDIX H.10 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2007
YEAR
FACILITY
EXCESS ASSEMBLIES
THREE MILE IS-I
VERMONT YANKEE
ZION-1
ZION-2
51.00
90.00
51.00
51.00
TOTAL EXCESS FOR 2002:
2003
BIG ROCK POINT
COOPER
FITZPATRICK
FORT CALHOUN-i
MAINE YANKEE
MILLSTONE-2
NORTH ANNA-I
OCONEE-1
PILGRIM-i
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-2
1.00
101.00
15.00
41.00
30.00
66.00
58.00
54.00
173.00
29.00
28.00
44.00
115.00
66.00
TOTAL EXCESS FOR 2003:
2004
BIG ROCK POINT
COOPER
INDIAN POINT-2
MILLSTONE-2
NINE MILE PT-I
OCONEE-1
OCONEE-2
OYSTER CREEK
POINT BEACH-i
POINT BEACH-2
ROBINSON-2
SALEM-i
THREE MILE IS-i
ZION-I
BIG ROCK POINT
CONN YANKEE
COOPER
FITZPATRICK
FORT CALHOUN-1
HATCH-1
INDIAN POINT-2
821.00
16.00
92.00
57.00
60.00
37.00
50.00
10.00
147.00
26.00
27.00
40.00
6.00
60.00
60.00
TOTAL EXCESS FOR 2004:
2005
700.00
14.00
24.00
76.00
123.00
30.00
103.00
48.00
688.00
178
APPENDIX H.10 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2007
YEAR
EXCESS ASSEMBLIES
FACILITY
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
MAINE YANKEE
MILLSTONE-1
NORTH ANNA-i
NORTH ANNA-2
OCONEE-1
OCONEE-2
OYSTER CREEK
PEACH BOTTOM-2
PILGRIM-i
POINT BEACH-I
POINT BEACH-2
SALEM-i
SURRY-1
THREE MILE IS-I
VERMONT YANKEE
ZION-i
ZION-2
53.00
7.00
132.00
51.00
65.00
45.00
35.00
42.00
42.00
119.00
69.00
135.00
23.00
22.00
59.00
28.00
51.00
88.00
51.00
50.00
TOTAL EXCESS FOR 2005:
2006
BEAVER VALLEY-1
CALVERT CLF-I
CONN YANKEE
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-i
HATCH-I
KEWAUNEE
LA SALLE-2
MAINE YANKEE
MILLSTONE-2
NINE MILE PT-I
NORTH ANNA-I
OCONEE-3
PEACH BOTTOM-2
PEACH BOTTOM-3
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
WNP-2
ZION-2
1585.00
25.00
22.00
46.00
98.00
55.00
153.00
39.00
162.00
33.00
190.00
63.00
64.00
161.00
55.00
31.00
200.00
61.00
29.00
28.00
52.00
112.00
139.00
64.00
TOTAL EXCESS FOR 2006:
1882.00
179
APPENDIX H.10 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2007
YEAR
2007
FACILITY
ARK NUCLEAR 1-1
CLINTON-I
COOPER
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
LA SALLE-2
MILLSTONE-2
NORTH ANNA-2
OCONEE-2
PEACH BOTTOM-3
SALEM-I
SALEM-2
SURRY-1
SUSQUEHANNA-1
THREE MILE IS-i
WATERFORD-3
WNP-2
ZION-I
EXCESS ASSEMBLIES
33.00
38.00
91.00
67.00
33.00
191.00
191.00
63.00
56.00
53.00
186.00
74.00
21.00
28.00
181.00
63.00
8.00
139.00
63.00
TOTAL EXCESS FOR 2007: 1579.00
2008
ARK NUCLEAR 1-2
BEAVER VALLEY-1
CALVERT CLF-1
FITZPATRICK
HATCH-i
LA SALLE-I
NORTH ANNA-I
NORTH ANNA-2
OCONEE-3
SALEM-I
SUSQUEHANNA-1
THREE MILE IS-.
WNP-2
ZION-2
21.00
49.00
30.00
122.00
126.00
147.00
43.00
44.00
39.00
57.00
154.00
19.00
109.00
7.00
TOTAL EXCESS FOR 2008:
2009
BEAVER VALLEY-I
BROWNS FERRY-2
BYRON-I
CALVERT CLF-2
CLINTON-I
FITZPATRICK
HATCH-1
LA SALLE-2
61.00
188.00
54.00
36.00
175.00
14.00
124.00
185.00
967.00
180
APPENDIX H.10 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2007
YEAR
EXCESS ASSEMBLIES
FACILITY
14.00
155.00
30.00
71.00
134.00
84.00
135.00
MILLSTONE-2
OYSTER CREEK
RANCHO SECO-I
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
TOTAL EXCESS FOR 2009: 1460.00
2010
ARK NUCLEAR 1-2
BEAVER VALLEY-i
BRAIDWOOD-1
CLINTON-i
DRESDEN-2
HATCH-2
LA SALLE-I
LA SALLE-2
NORTH ANNA-I
NORTH ANNA-2
RANCHO SECO-I
SALEM-i
SALEM-2
ST LUCIE-2
SUSQUEHANNA-I
WATERFORD-3
WNP-2
59.00
64.00
2.00
138.00
149.00
63.00
190.00
192.00
56.00
57.00
2.00
74.00
74.00
6.00
195.00
81.00
141.00
TOTAL EXCESS FOR 2010: 1543.00
2011
BROWNS FERRY-3
BYRON-I
HATCH-2
LA SALLE-i
NORTH ANNA-I
NORTH ANNA-2
RIVER BEND-1
SALEM-1
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
WNP-2
188.00
70.00
152.00
182.00
2.00
ý53.00
172.00
36.00
60.00
186.00
186.00
133.00
TOTAL EXCESS FOR 2011: 1420.00
2012
ARK NUCLEAR 1-2
BRAIDWOOD-I
BRAIDWOOD-2
20.00
64.00
12.00
181
APPENDIX H.10 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2007
YEAR
FACILITY
BYRON-I
CLINTON-I
LA SALLE-2
RIVER BEND-1
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
EXCESS ASSEMBLIES
69.00
152.00
178.00
171.00
68.00
186.00
83.00
131.00
TOTAL EXCESS FOR 2012: 1134.00
2013
BRAIDWOOD-I
BRAIDWOOD-2
BYRON-2
CALLAWAY-1
CLINTON-I
LA SALLE-I
LA SALLE-2
SALEM-2
ST LUCIE-2
SUSQUEHANNA-1
THREE MILE IS-I
WATERFORD-3
WNP-2
56.00
56.00
39.00
78.00
119.00
183.00
181.00
15.00
59.00
185.00
3.00
75.00
131.00
TOTAL EXCESS FOR 2013: 1180.00
2014
BEAVER VALLEY-2
BYRON-I
BYRON-2
COOPER
LA SALLE-I
RIVER BEND-I
SUSQUEHANNA-2
THREE MILE IS-I
14.00
57.00
49.00
170.00
17.00
142.00
153.00
49.00
TOTAL EXCESS FOR 2014:
2015
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-2
51.00
52.00
141.00
TOTAL EXCESS FOR 2015:
2016
BEAVER VALLEY-2
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
651.00
47.00
52.00
52.00
52.00
244.00
182
APPENDIX H.10 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2007
YEAR
FACILITY
EXCESS ASSEMBLIES
TOTAL EXCESS FOR 2016:
2017
BEAVER VALLEY-2
BROWNS FERRY-3
203.00
26.00
141.00
TOTAL EXCESS FOR 2017:
167.00
2018
TOTAL EXCESS FOR 2018:
.00
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2019
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 2007.
183
APPENDIX H.11
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2008
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT DEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-I
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-1
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
THREE MILE IS-I
ZION-I
ZION-2
COOPER
FORT CALHOUN-1
INDIAN POINT-2
INDIAN POINT-3
NORTH ANNA-1
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
79.00
3.00
36.00
123.00
12.00
116.00
23.00
22.00
43.00
417.00
184
APPENDIX H.11 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
STORAGE, REPOSITORY OPENING IN 2008
DEFICIT
FACILITIES WITH
YEAR
FACILITY
THREE MILE IS-I
VERMONT YANKEE
ZION-1
ZION-2
EXCESS ASSEMBLIES
51.00
90.00
51.00
51.00
TOTAL EXCESS FOR 2002:
2003
BIG ROCK POINT
COOPER
FITZPATRICK
FORT CALHOUN-I
MAINE YANKEE
MILLSTONE-2
NORTH ANNA-I
OCONEE-1
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-2
1.00
101.00
15.00
41.00
30.00
66.00
58.00
54.00
173.00
29.00
28.00
44.00
115.00
66.00
TOTAL EXCESS FOR 2003:
2004
BIG ROCK POINT
COOPER
INDIAN POINT-2
MILLSTONE-2
NINE MILE PT-I
OCONEE-1
OCONEE-2
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
SALEM-I
THREE MILE IS-I
ZION-i
BIG ROCK POINT
CONN YANKEE
COOPER
FITZPATRICK
FORT CALHOUN-1
HATCH-I
INDIAN POINT-2
821.00
16.00
92.00
57.00
60.00
37.00
50.00
10.00
147.00
26.00
27.00
40.00
6.00
60.00
60.00
TOTAL EXCESS FOR 2004:
2005
700.00
14.00
24.00
76.00
123.00
30.00
103.00
48.00
688.00
185
APPENDIX H.11 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2008
YEAR
FACILITY
INDIAN POINT-3
KEWAUNEE
LA SALLE-1
MAINE YANKEE
MILLSTONE-i
NORTH ANNA-I
NORTH ANNA-2
OCONEE-I
OCONEE-2
OYSTER CREEK
PEACH BOTTOM-2
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
SALEM-I
SURRY-1
THREE MILE IS-I
VERMONT YANKEE
ZION-I
ZION-2
EXCESS ASSEMBLIES
53.00
7.00
132.00
51.00
65.00
45.00
35.00
42.00
42.00
119.00
69.00
135.00
23.00
22.00
59.00
28.00
51.00
88.00
51.00
50.00
TOTAL EXCESS FOR 2005:
2006
BEAVER VALLEY-1
CALVERT CLF-I
CONN YANKEE
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-I
HATCH-I
KEWAUNEE
LA SALLE-2
MAINE YANKEE
MILLSTONE-2
NINE MILE PT-I
NORTH ANNA-1
OCONEE-3
PEACH BOTTOM-2
PEACH BOTTOM-3
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
WNP-2
ZION-2
1585.00
25.00
22.00
46.00
98.00
55.00
153.00
39.00
162.00
33.00
190.00
63.00
64.00
161.00
55.00
31.00
200.00
61.00
29.00
28.00
52.00
112.00
139.00
64.00
TOTAL EXCESS FOR 2006:
1882.00
186
APPENDIX H.11 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2008
YEAR
2007
FACILITY
ARK NUCLEAR 1-1
CLINTON-I
CONN YANKEE
COOPER
INDIAN POINT-2
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
LA SALLE-2
MILLSTONE-I
MILLSTONE-2
NORTH ANNA-2
OCONEE-1
OCONEE-2
OYSTER CREEK
PEACH BOTTOM-3
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
SALEM-I
SALEM-2
SURRY-1
SUSQUEHANNA-1
THREE MILE IS-I
WATERFORD-3
WNP-2
ZION-I
EXCESS ASSEMBLIES
33.00
38.00
46.00
91.00
60.00
67.00
33.00
191.00
191.00
175.00
63.00
56.00
52.00
53.00
154.00
186.00
28.00
27.00
42.00
74.00
21.00
46.00
181.00
63.00
8.00
139.00
63.00
TOTAL EXCESS FOR 2007:
2008
ARK NUCLEAR 1-2
BEAVER VALLEY-I
CALVERT CLF-1
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-I
HATCH-I
INDIAN POINT-3
KEWAUNEE
LA SALLE-1
NORTH ANNA-1
NORTH ANNA-2
OCONEE-2
OCONEE-3
PEACH BOTTOM-2
PILGRIM-1
SALEM-I
21.00
49.00
62.00
73.00
82.00
122.00
4.00
126.00
52.00
25.00
147.00
43.00
44.00
41.00
40.00
156.00
111.00
57.00
2181.00
187
APPENDIX H.11 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2008
YEAR
FACILITY
SUSQUEHANNA-1
THREE MILE IS-1
WNP-2
ZION-I
ZION-2
EXCESS ASSEMBLIES
154.00
49.00
109.00
49.00
49.00
TOTAL EXCESS FOR 2008: 1665.00
2009
BEAVER VALLEY-I
BROWNS FERRY-2
BYRON-1
CALVERT CLF-2
CLINTON-I
DUANE ARNOLD
FITZPATRICK
HATCH-I
LA SALLE-2
MILLSTONE-2
OCONEE-3
OYSTER CREEK
PEACH BOTTOM-2
RANCHO SECO-1
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
ZION-2
61.00
188.00
54.00
36.00
175.00
17.00
146.00
152.00
185.00
59.00
48.00
129.00
3.00
30.00
71.00
134.00
84.00
135.00
19.00
TOTAL EXCESS FOR 2009: 1726.00
2010
ARK NUCLEAR 1-2
BEAVER VALLEY-I
BRAIDWOOD-1
BROWNS FERRY-3
CLINTON-1
DRESDEN-2
HATCH-2
LA SALLE-1
LA SALLE-2
MILLSTONE-2
NORTH ANNA-i
NORTH ANNA-2
RANCHO SECO-I
SALEM-I
SALEM-2
ST LUCIE-2
SUSQUEHANNA-1
WATERFORD-3
59.00
64.00
2.00
1.00
138.00
307.00
63.00
190.00
192.00
19.00
56.00
57.00
50.00
74.00
74.00
6.00
195.00
81.00
188
APPENDIX H.11 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2008
YEAR
FACILITY
WNP-2
EXCESS ASSEMBLIES
141.00
TOTAL EXCESS FOR 2010: 1769.00
2011
BROWNS FERRY-I
BROWNS FERRY-2
BROWNS FERRY-3
BYRON-I
CALVERT CLF-2
HATCH-2
LA SALLE-I
NORTH ANNA-I
NORTH ANNA-2
RIVER BEND-1
SALEM-1
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
WNP-2
32.00
34.00
187.00
70.00
5.00
152.00
182.00
53.00
53.00
172.00
70.00
60.00
186.00
186.00
133.00
TOTAL EXCESS FOR 2011: 1575.00
2012
ARK NUCLEAR 1-2
BEAVER VALLEY-i
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-I
CLINTON-I
HATCH-1
LA SALLE-2
RIVER BEND-I
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
55.00
23.00
64.00
12.00
69.00
152.00
86.00
178.00
171.00
68.00
186.00
83.00
131.00
TOTAL EXCESS FOR 2012: 1278.00
2013
ARK NUCLEAR 1-2
BEAVER VALLEY-I
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
CALLAWAY-I
CLINTON-I
FORT CALHOUN-1
HATCH-2
LA SALLE-i
22.00
7.00
56.00
55.00
39.00
78.00
119.00
27.00
24.00
183.00
189
APPENDIX H.11 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2008
YEAR
EXCESS ASSEMBLIES
FACILITY
LA SALLE-2
SALEM-2
ST LUCIE-2
SURRY-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
181.00
69.00
59.00
21.00
185.00
75.00
131.00
TOTAL EXCESS FOR 2013: 1332.00
2014
BEAVER VALLEY-2
BYRON-I
BYRON-2
CALLAWAY-I
COOPER
HATCH-I
LA SALLE-I
PEACH BOTTOM-3
RIVER BEND-I
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
THREE MILE IS-I
WNP-2
14.00
57.00
49.00
60.00
213.00
173.00
149.00
276.00
142.00
49.00
153.00
153.00
22.00
109.00
TOTAL EXCESS FOR 2014: 1619.00
2015
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-2
BYRON-I
CLINTON-I
DIABLO CANYON-I
LA SALLE-2
RIVER BEND-I
SUSQUEHANNA-2
WATERFORD-3
51.00
52.00
107.00
58.00
130.00
35.00
153.00
146.00
158.00
70.00
TOTAL EXCESS FOR 2015:
2016
BEAVER VALLEY-2
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
960.00
47.00
52.00
52.00
52.00
TOTAL EXCESS FOR 2016:
203.00
190
APPENDIX H.11 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2008
YEAR
2017
FACILITY
EXCESS ASSEMBLIES
BEAVER VALLEY-2
BROWNS FERRY-3
BYRON-2
51.00
370.00
58.00
TOTAL EXCESS FOR 2017:
2018
BRAIDWOOD-2
479.00
64.00
TOTAL EXCESS FOR 2018:
64.00
2019
TOTAL EXCESS FOR 2019:
.00
TOTAL EXCESS FOR 2020:
.00
2020
NO FURTHER DATA FOR REPOSITORY OPENING IN 2008.
191
APPENDIX H.12
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-I
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-I
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-i
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-I
PILGRIM-I
POINT BEACH-i
POINT BEACH-2
THREE MILE IS-I
ZION-I
ZION-2
COOPER
FORT CALHOUN-I
INDIAN POINT-2
INDIAN POINT-3
NORTH ANNA-I
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
79.00
3.00
36.00
123.00
12.00
116.00
23.00
22.00
43.00
417.00
192
APPENDIX H.12 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
YEAR
FACILITY
THREE MILE IS-1
VERMONT YANKEE
ZION-1
ZION-2
EXCESS ASSEMBLIES
51.00
90.00
51.00
51.00
TOTAL EXCESS FOR 2002:
2003
BIG ROCK POINT
COOPER
FITZPATRICK
FORT CALHOUN-1
MAINE YANKEE
MILLSTONE-2
NORTH ANNA-I
OCONEE-1
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-2
1.00
101.00
15.00
41.00
30.00
66.00
58.00
54.00
173.00
29.00
28.00
44.00
115.00
66.00
TOTAL EXCESS FOR 2003:
2004
BIG ROCK POINT
COOPER
INDIAN POINT-2
MILLSTONE-2
NINE MILE PT-I
OCONEE-1
OCONEE-2
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
SALEM-I
THREE MILE IS-I
ZION-I
BIG ROCK POINT
CONN YANKEE
COOPER
FITZPATRICK
FORT CALHOUN-1
HATCH-I
INDIAN POINT-2
821.00
16.00
92.00
57.00
60.00
37.00
50.00
10.00
147.00
26.00
27.00
40.00
6.00
60.00
60.00
TOTAL EXCESS FOR 2004:
2005
700.00
14.00
24.00
76.00
123.00
30.00
103.00
48.00
688.00
193
APPENDIX H.12 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
YEAR
FACILITY
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
MAINE YANKEE
MILLSTONE-I
NORTH ANNA-1
NORTH ANNA-2
OCONEE-I
OCONEE-2
OYSTER CREEK
PEACH BOTTOM-2
PILGRIM-I
POINT BEACH-I
POINT BEACH-2
SALEM-I
SURRY-1
THREE MILE IS-i
VERMONT YANKEE
ZION-I
ZION-2
EXCESS ASSEMBLIES
53.00
7.00
132.00
51.0O
65.00
45.00
35.00
42.00
42.00
119.00
69.00
135.00
23.00
22.00
59.00
28.00
51.00
88.00
51.00
50.00
TOTAL EXCESS FOR 2005:
2006
BEAVER VALLEY-I
CALVERT CLF-1
CONN YANKEE
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-i
HATCH-I
KEWAUNEE
LA SALLE-2
MAINE YANKEE
MILLSTONE-2
NINE MILE PT-I
NORTH ANNA-I
OCONEE-3
PEACH BOTTOM-2
PEACH BOTTOM-3
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
WNP-2
ZION-2
1585.00
25.00
22.00
46.00
98.00
55.00
153.00
39.00
162.00
33.00
190.00
63.00
64.00
161.00
55.00
31.00
200.00
61.00
29.00
28.00
52.00
112.00
139.00
64.00
TOTAL EXCESS FOR 2006:
1882.00
194
APPENDIX H.12 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
YEAR
2007
FACILITY
ARK NUCLEAR 1-1
CLINTON-I
CONN YANKEE
COOPER
INDIAN POINT-2
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
LA SALLE-2
MILLSTONE-1
MILLSTONE-2
NORTH ANNA-2
OCONEE-1
OCONEE-2
OYSTER CREEK
PEACH BOTTOM-3
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
SALEM-I
SALEM-2
SURRY-1
SUSQUEHANNA-I
THREE MILE IS-1
WATERFORD-3
WNP-2
ZION-I
EXCESS ASSEMBLIES
33.00
38.00
46.00
91.00
60.00
67.00
33.00
191.00
191.00
175.00
63.00
56.00
52.00
53.00
154.00
186.00
28.00
27.00
42.00
74.00
21.00
46.00
181.00
63.00
8.00
139.00
63.00
TOTAL EXCESS FOR 2007:
2008
ARK NUCLEAR 1-2
BEAVER VALLEY-I
CALVERT CLF-1
CONN YANKEE
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-I
HATCH-I
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
MAINE YANKEE
MILLSTONE-I
NINE MILE PT-i
NORTH ANNA-1
NORTH ANNA-2
OCONEE-1
21.00
49.00
62.00
157.00
73.00
82.00
122.00
29.00
126.00
52.00
25.00
147.00
50.00
136.00
127.00
43.00
44.00
40.00
2181.00
195
APPENDIX H.12 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
YEAR
FACILITY
OCONEE-2
OCONEE-3
OYSTER CREEK
PEACH BOTTOM-2
PILGRIM-i
POINT BEACH-I
POINT BEACH-2
SALEM-1
SUSQUEHANNA-I
THREE MILE IS-I
VERMONT YANKEE
WNP-2
ZION-1
ZION-2
EXCESS ASSEMBLIES
41.00
40.00
117.00
156.00
131.00
22.00
22.00
57.00
154.00
49.00
87.00
109.00
49.00
49.00
TOTAL EXCESS FOR 2008:
2009
ARK NUCLEAR 1-1
BEAVER VALLEY-I
BROWNS FERRY-2
BYRON-I
CALVERT CLF-2
CLINTON-I
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-1
HATCH-1
KEWAUNEE
LA SALLE-2
MILLSTONE-2
OCONEE-3
OYSTER CREEK
PEACH BOTTOM-2
PEACH BOTTOM-3
RANCHO SECO-1
SALEM-2
SURRY-1
SURRY-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
ZION-2
2468.00
47.00
61.00
188.00
54.00
36.00
175.00
84.00
99.00
146.00
11.00
152.00
30.00
185.00
59.00
49.00
107.00
191.00
181.00
30.00
71.00
24.00
5.00
134.00
84.00
135.00
61.00
TOTAL EXCESS FOR 2009: 2399.00
2010
ARK NUCLEAR 1-2
BEAVER VALLEY-I
59.00
64.00
196
APPENDIX H.12 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
YEAR
FACILITY
BRAIDWOOD-1
BROWNS FERRY-3
CALVERT CLF-I
CLINTON-1
DRESDEN-2
HATCH-2
LA SALLE-I
LA SALLE-2
MILLSTONE-2
NORTH ANNA-1
NORTH ANNA-2
OCONEE-2
PEACH BOTTOM-3
PILGRIM-1
RANCHO SECO-1
SALEM-I
SALEM-2
ST LUCIE-2
SUSQUEHANNA-I
THREE MILE IS-1
WATERFORD-3
WNP-2
ZION-1
EXCESS ASSEMBLIES
2.00
1.00
49.00
138.00
503.00
63.00
190.00
192.00
64.00
56.00
57.00
11.00
1.00
17.00
50.00
74.00
74.00
6.00
195.00
33.00
81.00
141.00
14.00
TOTAL EXCESS FOR 2010: 2135.00
2011
BROWNS FERRY-I
BROWNS FERRY-2
BROWNS FERRY-3
BYRON-1
CALVERT CLF-2
FITZPATRICK
HATCH-1
HATCH-2
LA SALLE-I
NORTH ANNA-1
NORTH ANNA-2
RIVER BEND-I
SALEM-I
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
WNP-2
58.00
190.00
190.00
70.00
77.00
14.00
124.00
152.00
182.00
53.00
53.00
172.00
70.00
60.00
186.00
186.00
133.00
TOTAL EXCESS FOR 2011: 1970.00
2012
ARK NUCLEAR 1-2
BEAVER VALLEY-1
55.00
58.00
197
APPENDIX H.12 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
YEAR
EXCESS ASSEMBLIES
FACILITY
64.00
12.00
69.00
152.00
6.00
178.00
2.00
171.00
68.00
186.00
1.00
83.00
131.00
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-I
CLINTON-1
FITZPATRICK
LA SALLE-2
RANCHO SECO-1
RIVER BEND-I
SALEM-2
SUSQUEHANNA-2
TROJAN
WATERFORD-3
WNP-2
TOTAL EXCESS FOR 2012: 1236.00
2013
ARK NUCLEAR 1-2
BEAVER VALLEY-I
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-3
BYRON-2
CALLAWAY-I
CLINTON-I
FARLEY-1
FORT CALHOUN-1
HATCH-2
LA SALLE-I
LA SALLE-2
NORTH ANNA-2
SALEM-I
SALEM-2
ST LUCIE-2
SURRY-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
57.00
25.00
56.00
56.00
185.00
39.00
78.00
119.00
40.00
31.00
152.00
183.00
181.00
50.00
35.00
69.00
59.00
32.00
185.00
75.00
131.00
TOTAL EXCESS FOR 2013: 1838.00
2014
BEAVER VALLEY-2
BYRON-I
BYRON-2
CALLAWAY-I
COOPER
HATCH-i
INDIAN POINT-2
LA SALLE-i
14.00
57.00
49.00
60.00
357.00
387.00
70.00
149.00
198
APPENDIX H.12 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
YEAR
FACILITY
EXCESS ASSEMBLIES
PEACH BOTTOM-3
RIVER BEND-I
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
WNP-2
ZION-2
378.00
142.00
49.00
153.00
153.00
109.00
57.00
TOTAL EXCESS FOR 2014: 2184.00
2015
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-2
BYRON-I
CLINTON-1
DIABLO CANYON-I
LA SALLE-2
RIVER BEND-I
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
51.00
52.00
255.00
58.00
130.00
35.00
153.00
146.00
4.00
158.00
70.00
113.00
TOTAL EXCESS FOR 2015: 1225.00
2016
BEAVER VALLEY-2
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
CLINTON-I
GRAND GULF-1
INDIAN POINT-3
LA SALLE-1
LA SALLE-2
WATERFORD-3
47.00
52.00
52.00
52.00
142.00
97.00
71.00
26.00
157.00
65.00
TOTAL EXCESS FOR 2016:
2017
BEAVER VALLEY-2
BROWNS FERRY-3
BYRON-2
DIABLO CANYON-1
51.00
182.00
58.00
13.00
TOTAL EXCESS FOR 2017:
2018
BRAIDWOOD-1
BRAIDWOOD-2
761.00
60.00
64.00
304.00
199
APPENDIX H.12 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2009
YEAR
EXCESS ASSEMBLIES
FACILITY
TOTAL EXCESS FOR 2018:
2019
124.00
13.00
43.00
BEAVER VALLEY-2
BRAIDWOOD-2
TOTAL EXCESS FOR 2019:
56.00
2020
TOTAL EXCESS FOR 2020:
NO FURTHER DATA FOR REPOSITORY OPENING IN 2009.
.00
200
APPENDIX H.13
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2010
THE FOLLOWING FACILITIES HAVE EXCESS WASTE GENERATED:
YEAR
1998
FACILITY
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
EXCESS ASSEMBLIES
21.00
2.00
71.00
162.00
TOTAL EXCESS FOR 1998:
1999
OCONEE-1
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-I
39.00
25.00
25.00
37.00
99.00
45.00
TOTAL EXCESS FOR 1999:
2000
INDIAN POINT-3
OCONEE-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
COOPER
MILLSTONE-2
OCONEE-1
PILGRIM-I
POINT BEACH-1
POINT BEACH-2
THREE MILE IS-I
ZION-I
ZION-2
COOPER
FORT CALHOUN-I
INDIAN POINT-2
INDIAN POINT-3
NORTH ANNA-I
OYSTER CREEK
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
282.00
3.00
47.00
48.00
115.00
25.00
25.00
46.00
57.00
51.00
TOTAL EXCESS FOR 2001:
2002
270.00
24.00
52.00
28.00
27.00
41.00
110.00
TOTAL EXCESS FOR 2000:
2001
256.00
79.00
3.00
36.00
123.00
12.00
116.00
23.00
22.00
43.00
417.00
201
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2010
YEAR
FACILITY
EXCESS ASSEMBLIES
THREE MILE IS-1
VERMONT YANKEE
ZION-I
ZION-2
51.00
90.00
51.00
51.00
TOTAL EXCESS FOR 2002:
2003
BIG ROCK POINT
COOPER
FITZPATRICK
FORT CALHOUN-1
MAINE YANKEE
MILLSTONE-2
NORTH ANNA-1
OCONEE-1
PILGRIM-1
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
ZION-2
100
101.00
15.00
41.00
30.00
66.00
58.00
54.00
173.00
29.00
28.00
44.00
115.00
66.00
TOTAL EXCESS FOR 2003:
2004
BIG ROCK POINT
COOPER
INDIAN POINT-2
MILLSTONE-2
NINE MILE PT-I
OCONEE-1
OCONEE-2
OYSTER CREEK
POINT BEACH-1
POINT BEACH-2
ROBINSON-2
SALEM-i
THREE MILE IS-i
ZION-I
BIG ROCK POINT
CONN YANKEE
COOPER
FITZPATRICK
FORT CALHOUN-i
HATCH-I
INDIAN POINT-2
821.00
16.00
92.00
57.00
60.00
37.00
50.00
10.00
147.00
26.00
27.00
40.00
6.00
60.00
60.00
TOTAL EXCESS FOR 2004:
2005
700.00
14.00
24.00
76.00
123.00
30.00
103.00
48.00
688.00
202
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2010
YEAR
FACILITY
EXCESS ASSEMBLIES
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
MAINE YANKEE
MILLSTONE-I
NORTH ANNA-!
NORTH ANNA-2
OCONEE-1
OCONEE-2
OYSTER CREEK
PEACH BOTTOM-2
PILGRIM-1
POINT BEACH-1
POINT BEACH-2
SALEM-1
SURRY-1
THREE MILE IS-I
VERMONT YANKEE
ZION-1
ZION-2
53.00
7.00
132.00
51.00
65.00
45.00
35.00
42.00
42.00
119.00
69.00
135.00
23.00
22.00
59.00
28.00
51.00
88.00
51.00
50.00
TOTAL EXCESS FOR 2005:
2006
BEAVER VALLEY-1
CALVERT CLF-I
CONN YANKEE
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-I
HATCH-I
KEWAUNEE
LA SALLE-2
MAINE YANKEE
MILLSTONE-2
NINE MILE PT-1
NORTH ANNA-I
OCONEE-3
PEACH BOTTOM-2
PEACH BOTTOM-3
POINT BEACH-i
POINT BEACH-2
ROBINSON-2
VERMONT YANKEE
WNP-2
ZION-2
1585.00
25.00
22.00
46.00
98.00
55.00
153.00
39.00
162.00
33.00
190.00
63.00
64.00
161.00
55.00
31.00
200.00
61.00
29.00
28.00
52.00
112.00
139.00
64.00
TOTAL EXCESS FOR 2006:
1882.00
203
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2010
YEAR
2007
FACILITY
ARK NUCLEAR 1-1
CLINTON-I
CONN YANKEE
COOPER
INDIAN POINT-2
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
LA SALLE-2
MILLSTONE-I
MILLSTONE-2
NORTH ANNA-2
OCONEE-1
OCONEE-2
OYSTER CREEK
PEACH BOTTOM-3
POINT BEACH-I
POINT BEACH-2
ROBINSON-2
SALEM-I
SALEM-2
SURRY-1
SUSQUEHANNA-1
THREE MILE IS-i
WATERFORD-3
WNP-2
ZION-I
EXCESS ASSEMBLIES
33.00
38.00
46.00
91.00
60.00
67.00
33.00
191.00
191.00
175.00
63.00
56.00
52.00
53.00
154.00
186.00
28.00
27.00
42.00
74.00
21.00
46.00
181.00
63.00
8.00
139.00
63.00
TOTAL EXCESS FOR 2007:
2008
ARK NUCLEAR 1-2
BEAVER VALLEY-I
CALVERT CLF-I
CONN YANKEE
COOPER
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-I
HATCH-I
INDIAN POINT-3
KEWAUNEE
LA SALLE-1
MAINE YANKEE
MILLSTONE-1
NINE MILE PT-1
NORTH ANNA-I
NORTH ANNA-2
OCONEE-1
21.00
49.00
62.00
157.00
73.00
82.00
122.00
29.00
126.00
52.00
25.00
147.00
50.00
136.00
127.00
43.00
44,00
40.00
2181.00
204
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
STORAGE, REPOSITORY OPENING IN 2010
WITH
DEFICIT
FACILITIES
YEAR
FACILITY
OCONEE-2
OCONEE-3
OYSTER CREEK
PEACH BOTTOM-2
PILGRIM-1
POINT BEACH-I
POINT BEACH-2
SALEM-1
SUSQUEHANNA-1
THREE MILE IS-I
VERMONT YANKEE
WNP-2
ZION-I
ZION-2
EXCESS ASSEMBLIES
41.00
40.00
117.00
156.00
131.00
22.00
22,00
57.00
154.00
49.00
87.00
109.00
49.00
49.00
TOTAL EXCESS FOR 2008:
2009
ARK NUCLEAR 1-1
BEAVER VALLEY-I
BROWNS FERRY-2
BYRON-1
CALVERT CLF-2
CLINTON-1
COOPER
DRESDEN-2
DUANE ARNOLD
FITZPATRICK
FORT CALHOUN-1
HATCH-1
INDIAN POINT-2
KEWAUNEE
LA SALLE-2
MAINE YANKEE
MILLSTONE-2
OCONEE-I
OCONEE-3
OYSTER CREEK
PEACH BOTTOM-2
PEACH BOTTOM-3
POINT BEACH-1
POINT BEACH-2
RANCHO SECO-I
ROBINSON-2
SALEM-2
SURRY-1
SURRY-2
SUSQUEHANNA-2
VERMONT YANKEE
47.00
61.00
188.00
54.00
36.00
175.00
84.00
92.00
99.00
146.00
36.00
152.00
55.00
30.00
185.00
59.00
59.00
50.00
49.00
560.00
191.00
181.00
25.00
25.00
30.00
51.00
71.00
42.00
31.00
134.00
108.00
2468.00
205
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
STORAGE, REPOSITORY OPENING IN 2010
WITH
DEFICIT
FACILITIES
YEAR
FACILITY
EXCESS ASSEMBLIES
WATERFORD-3
WNP-2
ZION-2
84.00
135.00
61.00
TOTAL EXCESS FOR 2009:
2010
ARK NUCLEAR 1-2
BEAVER VALLEY-1
BRAIDWOOD-1
BROWNS FERRY-3
CALVERT CLF-I
CLINTON-1
COOPER
DRESDEN-2
HATCH-2
INDIAN POINT-3
KEWAUNEE
LA SALLE-I
LA SALLE-2
MILLSTONE-2
NORTH ANNA-I
NORTH ANNA-2
OCONEE-2
PEACH BOTTOM-3
PILGRIM-I
RANCHO SECO-I
SALEM-1
SALEM-2
ST LUCIE-2
SURRY-1
SUSQUEHANNA-I
THREE MILE IS-1
WATERFORD-3
WNP-2
ZION-I
3386.00
59.00
64.00
2.00
1.00
81.00
138.00
99.00
572.00
63.00
67.00
32.00
190.00
192.00
64.00
56.00
57.00
53.00
189.00
149.00
50.00
74.00
74.00
6.00
27.00
195.00
63.00
81.00
141.00
63.00
TOTAL EXCESS FOR 2010: 2902.00
2011
BROWNS FERRY-1
BROWNS FERRY-2
BROWNS FERRY-3
BYRON-I
CALVERT CLF-2
DUANE ARNOLD
FITZPATRICK
HATCH-I
HATCH-2
LA SALLE-I
58.00
190.00
190.00
70.00
77.00
18.00
146.00
152.00
152.00
182.00
206
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2010
YEAR
EXCESS ASSEMBLIES
FACILITY
53.00
53.00
8.00
49.00
1.00
172.00
70.00
60.00
186.00
186.00
29.00
133.00
11.00
18.00
NORTH ANNA-I
NORTH ANNA-2
OCONEE-2
OCONEE-3
PEACH BOTTOM-2
RIVER BEND-i
SALEM-I
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
THREE MILE IS-I
WNP-2
ZION-I
ZION-2
TOTAL EXCESS FOR 2011: 2264.00
2012
ARK NUCLEAR 1-2
BEAVER VALLEY-i
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-1
CLINTON-1
FARLEY-1
FITZPATRICK
HATCH-I
LA SALLE-2
MILLSTONE-2
PEACH BOTTOM-2
RANCHO SECO-1
RIVER BEND-I
SALEM-2
SUSQUEHANNA-2
TROJAN
WATERFORD-3
WNP-2
55.00
58.00
64.00
12.00
69.00
152.00
26.00
10.00
122.00
178.00
13.00
15.00
50.00
171.00
68.00
186.00
1.00
83.00
131.00
TOTAL EXCESS FOR 2012: 1464.00
2013
ARK NUCLEAR 1-2
BEAVER VALLEY-1
BRAIDWOOD-1
BRAIDWOOD-2
BROWNS FERRY-I
BROWNS FERRY-2
BROWNS FERRY-3
BYRON-2
CALLAWAY-I
57.00
60.00
56.00
56.00
162.00
32.00
185.00
39.00
78.00
207
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2010
YEAR
FACILITY
EXCESS ASSEMBLIES
CALVERT CLF-2
CLINTON-1
FARLEY-1
FORT CALHOUN-1
HATCH-2
LA SALLE-I
LA SALLE-2
NORTH ANNA-i
NORTH ANNA-2
RANCHO SECO-I
SALEM-I
SALEM-2
ST LUCIE-2
SURRY-2
SUSQUEHANNA-I
TROJAN
WATERFORD-3
WNP-2
4.00
119.00
14.00
46.00
152.00
183.00
181.00
50.00
50.00
3.00
69.00
69.00
59.00
6.00
185.00
40.00
75.00
131.00
TOTAL EXCESS FOR 2013: 2161.00
2014
BEAVER VALLEY-2
BROWNS FERRY-2
BYRON-1
BYRON-2
CALLAWAY-I
COOPER
HATCH-1
HATCH-2
INDIAN POINT-2
LA SALLE-I
NORTH ANNA-2
OCONEE-3
PEACH BOTTOM-3
RIVER BEND-I
SALEM-I
ST LUCIE-2
SUSQUEHANNA-1
SUSQUEHANNA-2
WNP-2
ZION-2
14.00
59.00
57.00
49.00
60.00
370.00
497.00
125.00
69.00
149.00
42.00
83.00
406.00
142.00
24.00
49.00
153.00
153.00
109.00
108.00
TOTAL EXCESS FOR 2014: 2718.00
2015
ARK NUCLEAR 1-2
BRAIDWOOD-I
BRAIDWOOD-2
BROWNS FERRY-2
10.00
51.00
52.00
412.00
208
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2010
YEAR
FACILITY
BYRON-I
CALVERT CLF-I
CLINTON-1
DIABLO CANYON-1
LA SALLE-2
RIVER BEND-1
SALEM-2
SUSQUEHANNA-2
WATERFORD-3
WNP-2
EXCESS ASSEMBLIES
58.00
36.00
130.00
35.00
153.00
146.00
58.00
158.00
70.00
113.00
TOTAL EXCESS FOR 2015: 1482.00
2016
BEAVER VALLEY-2
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
CALLAWAY-I
CLINTON-I
GRAND GULF-I
INDIAN POINT-3
LA SALLE-I
LA SALLE-2
SALEM-2
ST LUCIE-2
SUSQUEHANNA-1
WATERFORD-3
WNP-2
47.00
52.00
52.00
52.00
67.00
142.00
97.00
80.00
158.00
157.00
6.00
51.00
161.00
65.00
114.00
TOTAL EXCESS FOR 2016: 1301.00
2017
BEAVER VALLEY-2
BROWNS FERRY-3
BYRON-1
BYRON-2
DIABLO CANYON-I
GRAND GULF-I
LA SALLE-1
RIVER BEND-1
SUSQUEHANNA-2
51.00
182.00
66.00
58.00
81.00
207.00
41.00
163.00
177.00
TOTAL EXCESS FOR 2017: 1026.00
2018
BRAIDWOOD-1
BRAIDWOOD-2
PERRY-I
RIVER BEND-1
WATERFORD-3
60.00
64.00
86.00
10.00
13.00
209
APPENDIX H.13 (CONTINUED)
OUTPUT FROM PROGRAM "XS"
FACILITIES WITH DEFICIT STORAGE, REPOSITORY OPENING IN 2010
YEAR
FACILITY
EXCESS ASSEMBLIES
TOTAL EXCESS FOR 2018:
2019
BEAVER VALLEY-2
BRAIDWOOD-1
BRAIDWOOD-2
BYRON-2
38.00
44.00
43.00
44.00
TOTAL EXCESS FOR 2019:
2020
233.00
BEAVER VALLEY-2
DIABLO CANYON-2
169.00
27.00
6.00
TOTAL EXCESS FOR 2020:
NO FURTHER DATA FOR REPOSITORY OPENING IN 2010.
33.00
210
211
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APPENDIX J.1
2003 DEFICIT STORAGE PROFILES
BEAVER VALLEY-1
CEFICIT SrTRAGE. OPENING IN 2003
I
25-
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248
APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
BRAIDWOOD-2
__
1OPENINO IN 2003
DEFCIT "rTORAGE.
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APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
249
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APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
250
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APPENDIX J.1 (CONTINUED)
251
2003 DEFICIT STORAGE PROFILES
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APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
INDIAN
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253
APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
LA SALLE-2
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254
APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
NORTH ANNA--1
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APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
OCONEE--1
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2003 DEFICIT STORAGE PROFILES
256
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APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
257
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APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
258
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259
APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
SALEM-2
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260
APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
SUSQUEHANNA-2
DEWICIT STORAGE. OPENING IN 2C3
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261
APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
VERMONT YANKEE
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_ _ OPENING IN 2003
_
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APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
262
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APPENDIX J.1 (CONTINUED)
2003 DEFICIT STORAGE PROFILES
ZION-2
170
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APPENDIX J.2
264
2010 DEFICIT STORAGE PROFILES
ARK NUCLEAR
1-1
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
265
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APPENDIX J.2 (CONTINUED)
266
2010 DEFICIT STORAGE PROFILES
BIG ROCK POINT
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
267
BRAIDWOOD--2
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APPENDIX J.2 (CONTINUED)
268
2010 DEFICIT STORAGE PROFILES
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
BYRONEFICIT 5TURA••,
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1
OPENING
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
CALLAWAY-
1
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
271
CALVERT CLF-2
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
272
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273
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
DIABLO CANYON-1
OPENING IN 2010
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
DRESDEN-2
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OPENING IN 201 O0
71
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275
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
FARLEY-DEFCIT 5WIRAGE. OPENING IN 2010
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- a
7-
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276
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
FORT CALHOUN-1
240
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2020X
277
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
HATCH-1
EFICIT 51FRA•.• OPENING IN
W1
0
1.3
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278
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2010 DEFICIT STORAGE PROFILES
INDIAN
POINT-2
EFI~CIT STORAE,. OPENING IN 231 0
140 -
2460
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
279
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110
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094
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280
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
LA SALLE-2
CEFICIT STORAGE, OPENING IN 2010
1.
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C2000
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281
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
MI LLSTON E- 1
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
NINE MILE PT-1
IEFICIT STORAGE. OPENING IN
340
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283
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
NORTH ANNA-2
'EFICIT
•rlTUFAE. OPENING IN 201 0
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
OCONEE-2
210
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
OYSTER CREEK
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
PEACHBOTTO M-3
DEF•IIT S~TRAGOE. OPENING IN 2010
I"
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287
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
PILGRIM-
1I
CEFI•T •STORAGE, OPENING IN 201 0
I
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210
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288
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
POINT BEACH-2
Ii
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289
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
RIVER BEND--1
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5•TRAGE
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290
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
SALEM-
1
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APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
ST. LUCIE-2
P0FICIT STRAGE. OPENING IN
01 0
220
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292
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
SU RRY-2
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MM
M
Z04
W W05
MW
YEAR
A
Wi, .adrf
.li .L.A
L.ý
A.A
Wr-A
AAC Aar-"LLm"J"Ldrra
Ad&J
10
212
214
219
2115
9=8
I~Zr
293
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
SUSQUEHANNA-2
CEFICIT !•F1"RACE. OPENINO IN 201 0
1-
l
0.9 0.7 -
I
0.4
IE
-
0.3 -
0.2 0.1 n-
L~
1f99O
203
201Z
2•-
2b5
•
Ilr
I
7c 7
72 7
7/ 7
7
7
7i 7
71 71 7
7
7/ 7i 7
71
7
7~
7
7
4?
I
•2010
2Y12E
7
7
7
I7
7 7 7
7 7 7
7 7 7
.7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
In 7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
7 7 7
4? 4?
201'14
WI•1M
i
U4.-1
141
I
II..rj
I01A M2M
YEAR
THREE MILE IS-1
4:00
DEFICIT STORACE. OPENING IN 2010
-1I
7(
330 -
1im
71
-
eo-
Lr-l
e2
I
m1
...
-
Im
0 06
5
2
YFR
7
7f
7-
7
7
7
7
77f
7
7f -j 7f 7r 7
7
7
7
7
7/
7( 7/ -j 7C 71 7
7
7 7/
7 7 7
7 7
7f -J
7
7r
7
7
7f
7
7
7
71
7j
7
7j
7/
7j
7.t
7
7t
7
71
7
7
d
m
2 0102012
2014
219
7 77
,1
./
7/
I,
7
I,
7
./)
7/
7
7
7
7
7
7/
7
7 7
----T"4'
2010
I
2020
294
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
TROJAN
-1
· _
"0
DEFICIT SMTRAGE.
_
OPENING IN 21 0
-
7
7f
7 7 7
7 7
7(
23,-
Z
Li
I
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7C
0
7,.,
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7,"07~ .,/ 7/ 7
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z
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7/
7 7 7
7
7' 7 7
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7
7
7
7,- 7/ 7
7,,,
7-'
2'
7
7'
7
7
7
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71
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2010MiMI 20
200:
2:11
201112
L+-j
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2016
2016
200
rEAR
VERMONT YANKEE
IEFICIT STIRACE.
1-
%o
0.5-/
0.27
a. l-
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OPENING IN 21
0
-
C"4
!|
4:·
295
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
WATERFORD--3
-4
_
DEFICIT S17ORAG,.
OPENING IN__ 201 0
57
7f
-1
7f
7r
7-
7/ 77
300 -
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7
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7
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7
d
0110
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7f
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7
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7 4,"7/
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=014
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m
YEAR
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•EFICIT STORAOE, OPENINO IN 201 0
1.4
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1////
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E
0.60.7 -
z
/ /
0.4-
19
200
2002,
2004
,16
2,000
21
YEAR
_ 2010
2012
2314
W
W01
2020
296
APPENDIX J.2 (CONTINUED)
2010 DEFICIT STORAGE PROFILES
ZION-I1
400
IEFCIT SMIR$CE, OPENING IN 21 0
7-
I
3M0
I
1
7
I4
7
I
7
7
7
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7
7
7f
4
4
7f
4
7
4
4
I 4:
MM =04~
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0-
1
4
4 4
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7
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4
7 7 7
7
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MW 210420124 2014 2016 201,2020
-
I
MM
i
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--
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-
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7-
K
K
K
KJK
K/
K2
KK~
KsK1
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YEAR
ZION-2
OPENINO IN =01 0
CDFICIT STORAGE.
I
LII
,!0-
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1200
l
S
I
IUs•
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-- -I -9
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r
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202
3
2004
I
2015
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2012
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I
i
W
20:14
2010
1
320=
APPENDIX K
AVERAGE KG/ASSEMBLY RATIOS
#
REACTOR
RATIO
1 ARK NUCLEAR 1-1
2 ARK NUCLEAR 1-2
3 BEAVER VALLEY-I
4 BEAVER VALLEY-2
5 BIG ROCK POINT
6 BRAIDWOOD-1
7 BRAIDWOOD-2
8 BROWNS FERRY-I
9 BROWNS FERRY-2
10 BROWNS FERRY-3
11 BRUNSWICK-I
12 BRUNSWICK-2
13 BYRON-I
14 BYRON-2
15 CALLAWAY-1
16 CALVERT CLF-I
17 CALVERT CLF-2
18 CATAWBA-1
19 CATAWBA-2
20 CLINTON-1
21 CONN YANKEE
22 COOPER
23 CRYSTAL RIVER-3
24 D C COOK-I
25 D C COOK-2
26 DAVIS-BESSE-1
27 DIABLO CANYON-I
28 DIABLO CANYON-2
29 DRESDEN-2
30 DRESDEN-3
31 DUANE ARNOLD
32 FARLEY-1
33 FARLEY-2
34 FERMI-2
35 FITZPATRICK
36 FORT CALHOUN-1
37 GINNA
38 GRAND GULF-I
39 HARRIS-1
40 HATCH-1
41 HATCH-2
42 HOPE CREEK-1
43 INDIAN POINT-2
44 INDIAN POINT-3
45 KEWAUNEE
46 LA SALLE-I
47 LA SALLE-2
463
417
463
461
131
423
423
628
183
183
186
187
423
423
430
376
378
423
423
185
393
183
464
453
414
468
432
431
173
173
180
462
463
182
180
358
366
177
465
185
185
186
452
456
383
182
182
297
REACTOR
RATIO
48 LIMERICK-I
49 MAINE YANKEE
50 MC GUIRE-1
51 MC GUIRE-2
52 MILLSTONE-I1
53 MILLSTONE-2
54 MILLSTONE-3
55 MONTICELLO
56 NINE MILE PT-I
57 NINE MILE PT-2
58 NORTH ANNA-1
59 NORTH ANNA-2
60 OCONEE-1
61 OCONEE-2
62 OCONEE-3
63 OYSTER CREEK
64 PALISADES
65 PALO VERDE-1
66 PALO VERDE-2
67 PALO VERDE-3
68 PEACHBOTTOM- 2
69 PEACHBOTTOM-3
70 PERRY-1
71 PILGRIM-I
72 POINT BEACH-1
73 POINT BEACH-2
74 PRAIRIE IS-1
75 PRAIRIE IS-2
76 QUAD CITIES-1
77 QUAD CITIES-2
78 RANCHO SECO-1
79 RIVER BEND-I
80 ROBINSON-2
81 SALEM-1
82 SALEM-2
83 SAN ONOFRE-1
84 SAN ONOFRE-2
85 SAN ONOFRE-3
86 SEQUOYAH-1
87 SEQUOYAH-2
88 S. TEXAS PROJ-I
89 ST. LUCIE-1
90 ST. LUCIE-2
91 SUMMER
92 SURRY-1
93 SURRY-2
94 SUSQUEHANNA- 1
178
380
428
428
182
388
461
175
179
173
462
461
463
463
464
181
400
409
412
411
180
181
179
181
377
375
365
365
180
180
464
185
426
459
460
369
406
405
459
461
541
381
387
463
457
457
175
#
298
APPENDIX K (CONTINUED)
AVERAGE KG/ASSEMBLY RATIOS
#
95
96
97
98
99
100
101
102
103
104
105
106
107
REACTOR
SUSQUEHANNA-2
THREE MILE IS-I
TROJAN
TURKEY POINT-3
TURKEY POINT-4
VERMONT YANKEE
VOGTLE-I
WATERFORD-3
WNP-2
WOLF CREEK
YANKEE-ROWE
ZION-I
ZION-2
SOURCE:
RATIO
174
464
462
457
457
182
464
419
177
464
237
457
456
Calculated from Walling, R.C., C.M. Heeb, W.L. Purcell; ReactorSpecific Spent Fuel Discharge Projections:
land:
1986 to 2020;
Pacific Northwest Laboratory, March 1988)
PNL-6104.
(Rich-
299
BIBLIOGRAPHY
California Public Utilities Commission; 1987 Nuclear Spent Fuel Survey; (Data
Base prepared for the National Association of Regulatory Utility Commissioners, February 1988).
Carter, Luther J.; Nuclear Imperatives and Public Trust; (Washington, D.C.:
Resources for the Future, Inc., 1987).
Dietrich, William, Donna Orebic, Fay Fua; Survey of Spent Nuclear Fuel Storage; (Michigan: The National Association of Regulatory Utility Commissioners, February 1988).
Hoskins, Raymond E.; Probabilistic Assessment of Nuclear Waste Fund Fee Adeguacy; (Knoxville: University of Tennessee, March 3 1988).
Monastersky, Richard; "The 10,000-Year Test"; Science News; (Washington,
D.C.:
Science Service, Inc., February 27 1988) Vol. 133, No. 9; pp.
139-141.
Murdock, Steve H., F. Larry Leistritz, Rita R. Hamm; Nuclear Waste: Socioeconomic Dimensions of Long-Term Storage; (Boulder: Westview Press,
1983).
Office of Civilian Radioactive Waste Management; Annual Capacity Report;
(Washington, D.C.: U.S. Department of Energy, June 1987) DOE/RW-0146.
Office of Civilian Radioactive Waste Management; Annual Report to Congress;
(Washington, D.C.: U.S. Department of Energy, April 1987) DOE/RW0144.
Office of Civilian Radioactive Waste Management; "Congress Amends Nuclear
Waste Policy Act of 1982"; OCRWM Bulletin;
(Washington, D.C.: U.S.
Department of Energy, December 1987/January 1988) DOE/RW-0153; pp. 1-3.
Office of Civilian Radioactive Waste Management; OCRWM Mission Plan Amendment; (Washington, D.C.: U.S. Department of Energy, June 1987).
Office of Technology Assessment; Manaaing the Nation's Commercial High-Level
Radioactive Waste;
(Washington, D.C.:
Government Publishing Office,
1985).
Price, Jerome;
The Antinuclear Movement;
(Boston:
G.K. Hall & Company,
19v?).
Public Law 97-425 (Nuclear Waste Policy Act of 1982).
Richland Operations Office; Spent Fuel Storage Requirements 1987;
U.S. Department of Energy, September 1987).
(Richland:
300
Schrader-Frechette, K.S.; Nuclear Power and Public Policy; (Holland: D. Rendel Publishing Co., 1983) pp. 49-68.
Walling, R.C., C.M. Heeb, W.L. Purcell; Reactor-Specific Spent Fuel Discharge
1986 to 2020; (Richland: Pacific Northwest Laboratory,
Projections:
March 1988) PNL-6104.
"World List of Nuclear Power Plants"; Nuclear News; (La Grange Park: American Nuclear Society, Inc., February 1988) Vol. 31, No. 2; pp. 63-69.
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