Order Code RL33461
CRS Report for Congress
Received through the CRS Web
Civilian Nuclear Waste Disposal
June 9, 2006
Mark Holt
Resources, Science, and Industry Division
Congressional Research Service ˜ The Library of Congress

Civilian Nuclear Waste Disposal
Summary
Management of civilian radioactive waste has posed difficult issues for
Congress since the beginning of the nuclear power industry in the 1950s. Federal
policy is based on the premise that nuclear waste can be disposed of safely, but
proposed storage and disposal facilities have frequently been challenged on safety,
health, and environmental grounds. Although civilian radioactive waste
encompasses a wide range of materials, most of the current debate focuses on highly
radioactive spent fuel from nuclear power plants.
The Nuclear Waste Policy Act of 1982 (NWPA) calls for disposal of spent
nuclear fuel in a deep geologic repository. NWPA established an office in the
Department of Energy (DOE) to develop such a repository and required the
program’s civilian costs to be covered by a fee on nuclear-generated electricity, paid
into the Nuclear Waste Fund. Amendments to NWPA in 1987 restricted DOE’s
repository site studies to Yucca Mountain in Nevada. DOE is studying numerous
scientific issues at Yucca Mountain in preparing a license application to the Nuclear
Regulatory Commission (NRC) for the planned repository. Questions about the site
include the likelihood of earthquakes, volcanoes, water infiltration, and human
intrusion.
NWPA’s goal for starting to load waste into the repository was 1998, but DOE
now does not expect to open the facility until sometime after 2012. A resolution to
allow licensing of the site to proceed, despite a “veto” by the Governor of Nevada,
was signed by President Bush on July 23, 2002 (P.L. 107-200).
The Administration is requesting $544.5 million for the civilian nuclear waste
program in FY2007, $50 million above the FY2006 level. The House-passed
FY2007 Energy and Water Development Appropriations Bill (H.R. 5427, H.Rept.
109-474) would provide $574.5 million for the program, with the additional $30
million to be used for interim waste storage.
DOE announced on October 25, 2005, that it would require most spent fuel to
be sealed in standardized canisters before shipment to Yucca Mountain, a change that
would largely eliminate the handling of individual fuel assemblies at the site. DOE
subsequently informed NRC that making those changes in the repository’s
operational plans would further delay submission of the Yucca Mountain license
application, for which there is currently no announced schedule.
The Administration proposed legislation on April 5, 2006, to repeal the statutory
cap on the amount of waste at Yucca Mountain, reduce the scope of environmental
reviews for the repository, change budget procedures so that program funding could
be increased more easily, exempt nuclear waste sent to Yucca Mountain from
disposal requirements under the Resource Conservation and Recovery Act, and allow
preemption of state and local transportation requirements.
This report replaces CRS Issue Brief IB92059, Civilian Nuclear Waste
Disposal, by Mark Holt.

Contents
Most Recent Developments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Other Programs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Nuclear Utility Lawsuits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Nuclear Spent Fuel Legislation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Characteristics of Nuclear Waste . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Spent Nuclear Fuel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Commercial Low-Level Waste . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Current Policy and Regulation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Spent Nuclear Fuel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Current Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Waste Facility Schedules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Private Interim Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Regulatory Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Alternative Technologies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Funding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Low-Level Radioactive Waste . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Current Policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Regulatory Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Concluding Discussion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
109th Congress Legislation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Congressional Hearings, Reports, and Documents . . . . . . . . . . . . . . . . . . . . . . . 19
For Additional Reading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
List of Tables
Table 1. DOE Civilian Spent Fuel Management Funding . . . . . . . . . . . . . . . . . . 14

Civilian Nuclear Waste Disposal
Most Recent Developments
President Bush’s FY2007 budget request, submitted to Congress on February
6, would provide $544.5 million for the Department of Energy (DOE) civilian
nuclear waste program, $50 million above the FY2006 level. The House on May 24
approved $574.5 million for the program in its version of the FY2007 Energy and
Water Development Appropriations Bill (H.R. 5427, H.Rept. 109-474), with the
additional $30 million to be used for interim waste storage if authorizing legislation
is enacted. The DOE nuclear waste program is developing an underground repository
at Yucca Mountain, Nevada, but the project’s schedule is currently uncertain.
The Administration is also requesting $250 million for spent nuclear fuel
recycling research (under the DOE nuclear energy research and development
program) as part of a new Global Nuclear Energy Partnership (GNEP). The House-
passed Energy and Water appropriations measure would cut the recycling research
request to $120 million — still a 50% increase over the FY2006 level.
The Administration proposed draft legislation on April 5 to repeal the 70,000
metric ton limit on the amount of waste that can be emplaced at Yucca Mountain, a
limit that is expected to be exceeded by currently operating reactors during their
lifetimes. The bill also would reduce the scope of environmental reviews for the
repository, change the budget scoring of waste fee receipts so that program funding
could be increased more easily, exempt nuclear waste sent to Yucca Mountain from
disposal requirements under the Resource Conservation and Recovery Act, and allow
preemption of state and local transportation requirements. To remove a potential
obstacle to new nuclear power plants posed by Yucca Mountain delays, the bill
would require the Nuclear Regulatory Commission (NRC) to assume that sufficient
disposal capacity will be available for waste produced by new reactors. Notably
excluded from the bill (H.R. 5360, S. 2589, introduced by Representative Barton and
Senator Domenici by request) is an authorization for interim federal storage of
nuclear waste.
NRC on February 21 issued a license for a private interim waste storage facility
in Utah being developed by a nuclear utility consortium called Private Fuel Storage
(PFS). However, PFS still needs approval from the Bureau of Land Management to
widen a highway or build a railroad to the site. The above-ground PFS facility is
intended to store up to 4,000 casks of spent nuclear fuel awaiting planned eventual
disposal at Yucca Mountain.

CRS-2
Introduction
Nuclear waste has sometimes been called the Achilles’ heel of the nuclear
power industry; much of the controversy over nuclear power centers on the lack of
a disposal system for the highly radioactive spent fuel that must be regularly removed
from operating reactors.
Under the Nuclear Waste Policy Act of 1982 (NWPA) and 1987 amendments,
the Department of Energy (DOE) is focusing on Yucca Mountain, Nevada, to house
a deep underground repository for spent nuclear fuel and other highly radioactive
waste. The state of Nevada has strongly opposed DOE’s efforts on the grounds that
the site is unsafe, pointing to potential volcanic activity, earthquakes, water
infiltration, underground flooding, nuclear chain reactions, and fossil fuel and
mineral deposits that might encourage future human intrusion.
Despite those concerns, DOE contends that the evidence so far indicates that
Yucca Mountain is likely to prove suitable and that licensing of the site by the
Nuclear Regulatory Commission (NRC) should proceed. A Draft Environmental
Impact Statement (EIS) completed by DOE in July 1999 and finalized in February
2002 recommended that the project proceed as planned. However, DOE now does
not expect the planned Yucca Mountain repository to open until after 2012, more
than 14 years later than the 1998 goal specified by NWPA. DOE currently has no
announced schedule for submitting an NRC license application, which previously had
been planned for 2005.
The safety of geologic disposal of high-level waste (HLW), as planned in the
United States, depends largely on the characteristics of the rock formations from
which a repository would be excavated. Because many geologic formations are
believed to have remained undisturbed for millions of years, it appeared technically
feasible to isolate radioactive materials from the environment until they decayed to
safe levels. “There is strong worldwide consensus that the best, safest long-term
option for dealing with HLW is geologic isolation,” according to the National
Research Council.1
But, as the Yucca Mountain controversy indicates, scientific confidence about
the concept of deep geologic disposal has turned out to be difficult to apply to
specific sites. Every high-level waste site that has been proposed by DOE and its
predecessor agencies has faced allegations or discovery of unacceptable flaws, such
as water intrusion or earthquake vulnerability, that could release radioactivity into the
environment. Much of the problem results from the inherent uncertainty involved
in predicting waste site performance for the one million years that nuclear waste is
to be isolated. Opponents of geologic disposal have urged greater emphasis on new
or alternative technologies that might allow entirely different approaches to
high-level radioactive waste management.
1 National Research Council, Board on Radioactive Waste Management, Rethinking
High-Level Radioactive Waste Disposal: A Position Statement of the Board on Radioactive
Waste Management
(1990), p. 2.

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Other Programs. Other types of civilian radioactive waste have also
generated public controversy, particularly low-level radioactive waste, which is
produced by nuclear power plants, medical institutions, industrial operations, and
research activities. Civilian low-level waste currently is disposed of in large trenches
at sites in South Carolina and Washington state; however, the Washington facility
does not accept waste from outside its region. The lowest-concentration class of low-
level radioactive waste is also accepted by a Utah commercial disposal facility.
Threats by states to close their disposal facilities led to congressional authorization
of regional compacts for low-level waste disposal in 1985, although no new sites
have been opened by any of the 10 approved disposal compacts. Pursuant to a 2003
Texas statute, an application to build a disposal facility for commercial and federal
low-level waste in Andrews County, Texas, was filed August 2, 2004, by Waste
Control Specialists LLC.
Nuclear Utility Lawsuits
Nuclear utilities, which pay for most of the high-level waste disposal program
through a fee on nuclear power, have sued DOE for failing to begin the removal of
spent nuclear fuel from storage at commercial reactors by January 31, 1998, the
deadline established by the Nuclear Waste Policy Act. Industry officials contend that
total damages for missing the 1998 disposal deadline could eventually reach tens of
billions of dollars, assuming that no disposal ever takes place. Claims from more
than 20 nuclear utilities are pending.2
DOE has been negotiating with various reactor owners since 1999 on the missed
nuclear waste deadline and reached its first settlement agreement with a nuclear
utility, PECO Energy Co. (now part of Exelon), on July 19, 2000. The agreement
allowed PECO to keep up to $80 million in nuclear waste fee revenues during the
subsequent 10 years. However, other utilities sued DOE to block the settlement,
contending that nuclear waste fees may be used only for the DOE waste program and
not as compensation for missing the disposal deadline. The U.S. Court of Appeals
for the 11th Circuit agreed, ruling September 24, 2002, that any compensation would
have to come from general revenues or other sources than the waste fund.
Exelon announced a settlement with the Department of Justice August 10, 2004,
in which compensation for the company’s nuclear waste storage costs would be paid
from the federal Judgment Fund. Exelon, which operates 17 reactors, calculates that
it would be reimbursed $300 million if DOE began taking waste by the previous goal
of 2010, and up to $600 million if the schedule slipped to 2015.
Although some of the program’s delays have been blamed on poor management,
DOE contends that tight funding has been a major barrier. DOE cannot spend the
nuclear industry’s mandatory waste fees without congressional appropriations, and
only about half the total fees collected have been appropriated to the program so far.
However, some surplus in the fund may be necessary to pay future nuclear waste
disposal costs after today’s nuclear plants have ceased operation. The nuclear
2 “More Utility Damage Claims Expected,” NuclearFuel, January 20, 2003, p. 8.

CRS-4
industry and others have long urged changes in the waste program’s funding
mechanism but have consistently been stymied by budget scoring and policy issues.
Nuclear Spent Fuel Legislation
Continued delays in the Yucca Mountain project have prompted proposals for
a legislative redirection of the nuclear waste program. The Bush Administration
proposed draft legislation on April 5 that would “facilitate the licensing, construction,
and operation of a repository at Yucca Mountain,” according to Energy Secretary
Samuel W. Bodman.3
The administration bill would reduce the scope of environmental reviews for the
repository, change the budget scoring of waste fee receipts so that program funding
could be increased more easily, exempt nuclear waste sent to Yucca Mountain from
disposal requirements under the Resource Conservation and Recovery Act, and allow
preemption of state and local transportation requirements. The bill (H.R. 5360, S.
2589) was introduced by Representative Barton on May 11, 2006, and by Senator
Domenici on April 6, 2006, by request.
To remove a potential obstacle to new nuclear power plants posed by Yucca
Mountain delays, the bill would require NRC to assume that sufficient disposal
capacity will be available for waste produced by new reactors. It would also repeal
the 70,000 metric ton limit on the amount of waste that can be emplaced at Yucca
Mountain, a limit that is expected to be exceeded by currently operating reactors
during their lifetimes. Notably excluded from the bill is an authorization for interim
federal storage of nuclear waste.
President Bush recommended the Yucca Mountain site to Congress on February
15, 2002, and Nevada Governor Guinn submitted a notice of disapproval, or “state
veto,” April 8, 2002, as allowed by NWPA. The state veto would have blocked
further repository development at Yucca Mountain if a resolution approving the site
had not been passed by Congress and signed into law within 90 days of continuous
session. An approval resolution was signed by President Bush July 23, 2002 (P.L.
107-200).4
3 Secretary of Energy, transmittal letter for “Nuclear Fuel Management and Disposal Act,”
April 5, 2006.
4 Senator Bingaman introduced the approval resolution in the Senate April 9, 2002 (S.J.Res.
34), and Representative Barton introduced it in the House April 11, 2002 (H.J.Res. 87). The
Subcommittee on Energy and Air Quality of the House Committee on Energy and
Commerce approved H.J.Res. 87 on April 23 by a 24-2 vote, and the full Committee
approved the measure two days later, 41-6 (H.Rept. 107-425). The resolution was passed
by the House May 8, 2002, by a vote of 306-117. The Senate Committee on Energy and
Natural Resources approved S.J.Res. 34 by a 13-10 vote June 5, 2002 (S.Rept. 107-159).
Following a 60-39 vote to consider S.J.Res. 34, the Senate passed H.J.Res. 87 by voice vote
July 9, 2002.

CRS-5
Members of the Nevada and Utah congressional delegations introduced
legislation on December 14, 2005, to require commercial nuclear reactor operators
to place their spent nuclear fuel into on-site dry storage casks, which would then
become the permanent responsibility of DOE (H.R. 4538, S. 2099). Opponents of
the measure contend that it would leave spent fuel at reactor sites indefinitely and
undermine the Nuclear Waste Policy Act. However, supporters argue that the waste
would be safer in dry storage at reactor sites than if it were shipped across the country
to Yucca Mountain or the proposed Private Fuel Storage (PFS) site in Utah.
Characteristics of Nuclear Waste
Radioactive waste is a term that encompasses a broad range of material with
widely varying characteristics. Some waste has relatively slight radioactivity and is
safe to handle, while other types are intensely hot in both temperature and
radioactivity. Some decays to safe levels of radioactivity in a matter of days or weeks,
while other types will remain dangerous for thousands of years. Major types of
radioactive waste are generally defined by DOE and the Nuclear Regulatory
Commission (NRC) as follows:
Spent nuclear fuel. Fuel rods that have been permanently withdrawn from a
nuclear reactor because they can no longer efficiently sustain a nuclear chain reaction
(although they contain uranium and plutonium that could be extracted through
reprocessing to make new fuel). By far the most radioactive type of civilian nuclear
waste, spent fuel contains extremely hot but relatively short-lived fission products
(fragments of the nuclei of uranium and other fissile elements) as well as long-lived
radionuclides (radioactive atoms) such as plutonium, which remains dangerously
radioactive for tens of thousands of years or more.
High-level waste. Highly radioactive residue created by spent fuel reprocessing
(almost entirely for defense purposes in the United States). High-level waste
contains most of the radioactive fission products of spent fuel, but most of the
uranium and plutonium usually has been removed for re-use. Enough long-lived
radioactive elements remain, however, to require isolation for 10,000 years or more.
Transuranic (TRU) waste. Relatively low-activity waste that contains more than
a certain level of long-lived elements heavier than uranium (primarily plutonium).
Shielding may be required for handling of some types of TRU waste. In the United
States, transuranic waste is generated almost entirely by nuclear weapons production
processes. Because of the plutonium, long-term isolation is required.
Low-level waste. Radioactive waste not classified as spent fuel, high-level
waste, TRU waste, or byproduct material such as uranium mill tailings (below). Four
classes of low-level waste have been established by NRC, ranging from least
radioactive and shortest-lived to the longest-lived and most radioactive. Although
some types of low-level waste can be more radioactive than some types of high-level
waste, in general low-level waste contains relatively low amounts of radioactivity
that decays relatively quickly. Low-level waste disposal facilities cannot accept
material that exceeds NRC concentration limits.

CRS-6
Uranium mill tailings. Sand-like residues remaining from the processing of
uranium ore. Such tailings have very low radioactivity but extremely large volumes
that can pose a hazard, particularly from radon emissions or groundwater
contamination.
Mixed waste. High-level, low-level or TRU waste that contains hazardous
non-radioactive waste. Such waste poses serious institutional problems, because the
radioactive portion is regulated by DOE or NRC under the Atomic Energy Act, while
the Environmental Protection Agency (EPA) regulates the non-radioactive elements
under the Resource Conservation and Recovery Act (RCRA).
Spent Nuclear Fuel
When spent nuclear fuel is removed from a reactor, usually after several years
of power production, it is thermally hot and highly radioactive. The spent fuel is in
the form of fuel assemblies, which consist of arrays of metal-clad fuel rods 12-15 feet
long.
A fresh fuel rod, which emits relatively little radioactivity, contains uranium that
has been enriched in the isotope U-235 (usually 3%-5%). But after nuclear fission
has taken place in the reactor, many of the uranium nuclei in the fuel rods have been
split into a variety of highly radioactive fission products; others have absorbed
neutrons to become radioactive plutonium, some of which has also split into fission
products. Radioactive gases are also contained in the spent fuel rods. Newly
withdrawn spent fuel assemblies are stored in deep pools of water adjacent to the
reactors to keep them from overheating and to protect workers from radiation.
Spent fuel discharged from U.S. commercial nuclear reactors is currently stored
at 72 power plant sites around the nation, plus two small central storage facilities.
At the end of 2002 (the most recent DOE survey), commercial spent fuel totaled
46,927 metric tons. A typical large commercial nuclear reactor discharges an average
of 20-30 metric tons of spent fuel per year — an average of about 2,150 metric tons
annually for the entire U.S. nuclear power industry. As a result, the total amount of
commercial spent fuel is expected to exceed 53,000 metric tons by the end of 2006,
and 62,000 metric tons by 2010, when the Yucca Mountain repository had been
planned to open. Including 7,000 metric tons of DOE spent fuel and high-level waste
that is also planned for disposal at Yucca Mountain, the total amount would nearly
reach NWPA’s 70,000-metric-ton limit by 2010. (For details on current spent fuel
storage, see CRS Report RS22001, Spent Nuclear Fuel Storage Locations and
Inventory
, by Anthony Andrews.)
As long as nuclear power continues to be generated, the amounts stored at plant
sites will continue to grow until an interim storage facility or a permanent repository
can be opened — or until alternative treatment and disposal technology is developed.
DOE estimates that the amount of commercial spent fuel and other highly radioactive
waste may grow to 105,000 metric tons by 2035.5
5 DOE Office of Civilian Radioactive Waste Management, OCRWM Annual Report to
(continued...)

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New storage capacity at operating nuclear plant sites or other locations will be
required if DOE is unable to begin accepting waste into its disposal system for
another six years or longer. Most utilities are expected to construct new dry storage
capacity for their older fuel. On-site dry storage facilities currently in operation or
planned typically consist of metal casks or concrete modules. NRC has determined
that spent fuel could be stored safely at reactor sites for up to 100 years.6
The terrorist attacks of September 11, 2001, heightened concerns about the
vulnerability of stored spent fuel. Concerns have been raised that an aircraft crash
into a reactor’s pool area could drain the pool and cause the spent fuel inside to
overheat. A report released by NRC January 17, 2001, found that overheating could
cause the zirconium alloy cladding of spent fuel to catch fire and release hazardous
amounts of radioactivity, although it characterized the probability of such a fire as
low.
In a report released April 6, 2005, the National Academy of Sciences (NAS)
found that “successful terrorist attacks on spent fuel pools, though difficult, are
possible.” To reduce the likelihood of spent fuel cladding fires, the NAS study
recommended that hotter and cooler spent fuel assemblies be interspersed throughout
spent fuel pools, that spray systems be installed above the pools, and that more fuel
be transferred from pools to dry cask storage.7 NRC has agreed to consider some of
the recommendations, although it contends that current security measures would
prevent successful attacks. The nuclear industry contends that the several hours
required for uncovered spent fuel to heat up enough to catch fire would allow ample
time for alternative measures to cool the fuel. The FY2006 Energy and Water
appropriations bill (P.L. 109-103) gives NRC an additional $21 million to implement
the NAS recommendations.
Commercial Low-Level Waste
Low-level waste disposed of in commercial sites makes up about a third of all
accumulated low-level waste in the United States; the remaining two-thirds has been
generated by DOE activities and sent to DOE-owned disposal sites. Several million
cubic feet of commercial low-level waste is shipped to disposal sites each year,
according to NRC. Volumes can vary widely from year to year, based on the status
of nuclear decommissioning projects and cleanup activities that can generate
especially large quantities.
For more background on radioactive waste characteristics, see CRS Report
RL32163, Radioactive Waste Streams: An Overview of Waste Classification for
Disposal
, by Anthony Andrews.
5 (...continued)
Congress, Fiscal Year 2002, DOE/RW-0560, October 2003, Appendix C.
6 Nuclear Regulatory Commission, Waste Confidence Decision Review, 55 Federal Register
38474, September 18, 1990.
7 National Academy of Sciences, Safety and Security of Commercial Spent Nuclear Fuel
Storage: Public Report
, released April 6, 2005, p. 2.

CRS-8
Current Policy and Regulation
Spent fuel and high-level waste are a federal responsibility, while states are
authorized to develop disposal facilities for commercial low-level waste. In general,
disposal requirements have grown more stringent over the years, in line with overall
national environmental policy and heightened concerns about the hazards of
radioactivity.
Spent Nuclear Fuel
Current Program. The Nuclear Waste Policy Act of 1982 (NWPA, P.L.
97-425) established a system for selecting a geologic repository for the permanent
disposal of up to 70,000 metric tons (77,000 tons) of spent nuclear fuel and
high-level waste. DOE’s Office of Civilian Radioactive Waste Management
(OCRWM) was created to carry out the program. The Nuclear Waste Fund, holding
receipts from a fee on commercial nuclear power and federal contributions for
emplacement of high-level defense waste, was established to pay for the program.
DOE was required to select three candidate sites for the first national high-level
waste repository.
After much controversy over DOE’s implementation of NWPA, the act was
substantially modified by the Nuclear Waste Policy Amendments Act of 1987 (Title
IV, Subtitle A of P.L. 100-203, the Omnibus Budget Reconciliation Act of 1987).
Under the amendments, the only candidate site DOE may consider for a permanent
high-level waste repository is at Yucca Mountain, Nevada. If that site cannot be
licensed, DOE must return to Congress for further instructions.
The 1987 amendments also authorized construction of a monitored retrievable
storage (MRS) facility to store spent fuel and prepare it for delivery to the repository.
But because of fears that the MRS would reduce the need to open the permanent
repository and become a de facto repository itself, the law forbids DOE from
selecting an MRS site until recommending to the President that a permanent
repository be constructed. The repository recommendation occurred in February
2002, but DOE has not announced any plans for an MRS.
Waste Facility Schedules. Upon releasing the civilian nuclear waste
program’s FY2006 budget request on February 7, 2005, DOE officials announced
that the opening of the planned Yucca Mountain repository would be delayed at least
two years from the previous goal of 2010 — and more than 14 years after the
statutory deadline of January 1998.
DOE announced on October 25, 2005, that it would require most spent fuel to
be sealed in standardized canisters before shipment to Yucca Mountain, a change that
would largely eliminate the handling of individual fuel assemblies at the site. DOE
subsequently informed NRC that the changes would further delay submission of the
Yucca Mountain license application: “Until this plan is approved and these changes

CRS-9
have been incorporated into the project’s baseline design, DOE will be unable to
estimate realistically when the license application will be submitted.”8
The major activity at the Yucca Mountain site so far has been the construction
and operation of an “exploratory studies facility” (ESF) with a 25-foot-diameter
tunnel boring machine. The ESF consists primarily of a five-mile tunnel with ramps
leading to the surface at its north and south ends. The tunnel boring machine began
excavating the north ramp in October 1994 and broke through to the surface at the
south entrance April 25, 1997. Underground studies are being conducted at several
side alcoves that have been excavated off the main tunnel.
DOE completed a “viability assessment” of Yucca Mountain in December 1998,
which was followed by a draft environmental impact statement (EIS) for the project
in July 1999. DOE issued a preliminary site suitability evaluation August 21, 2001,
that found Yucca Mountain could meet EPA and NRC requirements.
Energy Secretary Abraham on February 14, 2002, recommended to President
Bush that the Yucca Mountain project go forward. At the same time, the Secretary
submitted the final EIS (see [http://www.ocrwm.doe.gov/documents/feis_a/
index.htm]) and other supporting materials (for details, see the Yucca Mountain
Project home page at [http://www.ocrwm.doe.gov]). As noted previously, President
Bush recommended the Yucca Mountain site to Congress the day after the
Secretary’s recommendation, and Nevada Governor Guinn subsequently submitted
a notice of disapproval, or “state veto,” as allowed by NWPA. An approval
resolution passed by the House and Senate to overturn the state veto was signed by
the President July 23, 2002 (P.L. 107-200).
DOE announced April 8, 2004, that it planned to transport nuclear waste mostly
by rail to the planned Yucca Mountain repository. The Record of Decision on the
waste transportation mode was published in the Federal Register along with the
selection of a corridor in Nevada for a 300-mile rail spur to the Yucca Mountain site.
DOE estimated that Yucca Mountain would receive 9,000-10,000 rail shipments and
3,000-3,300 truck shipments over a 24-year period after the repository opened. The
repository is to be permanently closed in 2116, according to the DOE viability
assessment.
The quality of scientific work at Yucca Mountain was called into question by
DOE’s March 16, 2005, disclosure of e-mails from geologists indicating that some
quality assurance documentation had been falsified. DOE currently is determining
whether the problems affect the completeness and accuracy of information submitted
to NRC in support of the planned Yucca Mountain license application. The
Government Accountability Office in March 2006 found chronic quality assurance
problems in the Yucca Mountain project.9 Members of the Nevada congressional
8 Nuclear Regulatory Commission, The Department of Energy’s Sixth Monthly Status Report
Regarding LSN Certification and License Application Submittal
, November 1, 2005.
9 U.S. Government Accountability Office, Yucca Mountain: Quality Assurance at DOE’s
Planned Nuclear Waste Repository Needs Increased Management Attention
, GAO-06-313,
(continued...)

CRS-10
delegation and state officials have called for the Yucca Mountain project to be
suspended and for an independent commission to review all of DOE’s scientific work
at Yucca Mountain.10
The state of Nevada is also fighting DOE in court. A suit filed in June 2002
charged DOE with violating NWPA by relying too strongly on casks and other
engineered barriers to prevent radioactive releases, rather than on Yucca Mountain’s
natural site characteristics. The most recent, filed January 9, 2003, contended that
Congress violated the Constitution in eliminating all candidate waste sites except
Yucca Mountain. The U.S. Court of Appeals for the District of Columbia Circuit
rejected those challenges July 9, 2004, but it struck down EPA’s 10,000-year
regulatory compliance period as too short (discussed in more detail below).
Delays in the Yucca Mountain project prompted the House Appropriations
Committee to include language in its report on the FY2006 Energy and Water
appropriations bill directing DOE “to begin the movement of spent fuel to centralized
interim storage at one or more DOE sites within fiscal year 2006.”11 The bill as
passed by the House (H.R. 2419) would have added $10 million to the
Administration’s nuclear waste funding request for that purpose. During floor
debate, questions arose about potential conflicts between the committee report
language and restrictions on DOE interim storage imposed by NWPA and state
agreements. The Senate-passed version of the bill did not include comparable report
language on spent fuel storage.
The conference agreement on the FY2006 Energy and Water bill12 provides
$500 million for nuclear waste disposal — $150 million from the Nuclear Waste
Fund and $350 million from the Defense Nuclear Waste Disposal Account. Of the
defense waste funding, $50 million is provided for DOE to develop a spent nuclear
fuel recycling plan, in conjunction with a recycling technology development plan
required under the Advanced Fuel Cycle Initiative (AFCI). The detailed program
plan is to be submitted by March 31, 2006, and a “site selection competition” for an
integrated reprocessing facility is to begin by June 30, 2006. A reprocessing site is
to be selected in FY2007 and construction to begin in FY2010. “The site
competition should not be limited to DOE sites, but should be open to a wide range
of other possible federal and nonfederal sites on a strictly voluntary basis,” according
to the conference report. Applicants for a reprocessing facility can receive up to $5
million per site, up to a total of $20 million, to prepare detailed proposals.
DOE is requesting no additional funding for FY2007 for spent fuel recycling in
the nuclear waste program. However, the FY2007 budget request would sharply
boost research funding for recycling (also called reprocessing) in the AFCI program
9 (...continued)
March 2006, p. 6.
10 Elaine Hiruo, “DOE Sought Help From Scientist Who Wrote E-mails,” NuclearFuel,
April 11, 2005, p. 1.
11 H.Rept. 109-86, May 18, 2005.
12 H.Rept. 109-275, P.L. 109-103

CRS-11
— from $79.2 million to $243.0 million — as part of the Global Nuclear Energy
Partnership (GNEP).
The House on May 24 approved $574.5 million for the nuclear waste program
in its version of the FY2007 Energy and Water Development Appropriations Bill
(H.R. 5427, H.Rept. 109-474), with the additional $30 million to be used for interim
waste storage if authorizing legislation is enacted. The bill would cut the GNEP-
related recycling research request to $120 million — still a 50% increase over the
FY2006 level.
Private Interim Storage. In response to delays in the federal nuclear waste
program, a utility consortium signed an agreement with a Utah Indian tribe on
December 27, 1996, to develop a private spent fuel storage facility on tribal land.
The Private Fuel Storage (PFS) consortium submitted a license application to NRC
on June 25, 1997, and an NRC licensing board recommended approval on February
24, 2005. On September 9, 2005, NRC denied the State of Utah’s final appeals and
authorized the NRC staff to issue the license. The 20-year license for storing up to
44,000 tons of spent fuel in dry casks was issued on February 21, 2006.
Despite the NRC license, the PFS facility still needs approval from the Bureau
of Land Management (BLM) to build a rail line or widen a highway through federal
land to transport waste to the site. BLM officials said in November 2005 that such
approval would not be given until the Department of Defense has studied the impact
of any such land-use changes on nearby military facilities, as required by section
2815 of the National Defense Authorization Act for FY2000 (P.L. 106-65). In
addition to the BLM approval, PFS will need approval from the Bureau of Indian
Affairs and the Surface Transportation Board. The NRC license also requires PFS to
demonstrate adequate funding before construction would be allowed. No contracts
to store waste at the PFS site have been announced.
The NRC licensing board had determined on March 10, 2003, that the PFS
facility should not be licensed without sufficient evidence that it could withstand a
crash from fighter jets based nearby. In February 2005, the three-member panel
decided 2-1 that most crashes would not breach the storage casks and that the
probability of radioactive releases was therefore low enough to allow the facility to
be licensed. The U.S. Circuit Court of Appeals for the 10th Circuit on August 4,
2004, struck down several statutes that Utah had enacted to block the PFS project,
but the state is appealing the decision. The state also filed a lawsuit in the Court of
Appeals for the District of Columbia Circuit on March 6, 2006, to overturn the PFS
license.13
Regulatory Requirements. NWPA requires that high-level waste facilities
be licensed by the NRC in accordance with general standards issued by EPA. Under
the Energy Policy Act of 1992 (P.L. 102-486), EPA was required to write new
standards specifically for Yucca Mountain. NWPA also requires the repository to
meet general siting guidelines prepared by DOE and approved by NRC.
Transportation of waste to storage and disposal sites is regulated by NRC and the
13 LLW Notes, “Utah Challenges License Issuance to PFS,” March/April 2006, p. 16.

CRS-12
Department of Transportation (DOT). Under NWPA, DOE shipments to Yucca
Mountain must use NRC-certified casks and comply with NRC requirements for
notifying state and local governments. Yucca Mountain shipments must also follow
DOT regulations on routing, placarding, and safety.
NRC’s licensing requirements for Yucca Mountain, at 10 CFR 63, require
compliance with EPA’s standards (described below) and establish procedures that
DOE must follow in seeking a repository license. For example, DOE must conduct
a repository performance confirmation program that would indicate whether natural
and man-made systems were functioning as intended and assure that other
assumptions about repository conditions were accurate.
The Energy Policy Act of 1992 (P.L. 102-486) made a number of changes in the
nuclear waste regulatory system, particularly that EPA must issue new environmental
standards specifically for the Yucca Mountain repository site. General EPA
repository standards previously issued and subsequently revised no longer apply to
Yucca Mountain. DOE and NRC had complained that some of EPA’s general
standards might be impossible or impractical to meet.
The new standards, which limit the radiation dose that the repository could
impose on individual members of the public, were required to be consistent with the
findings of a study by the National Academy of Sciences (NAS), which was issued
August 1, 1995.14 The NAS study recommended that the Yucca Mountain
environmental standards establish a limit on risk to individuals near the repository,
rather than setting specific limits for the releases of radioactive material or on
radioactive doses, as under previous EPA standards. The NAS study also examined
the potential for human intrusion into the repository and found no scientific basis for
predicting human behavior thousands of years into the future.
Pursuant to the Energy Policy Act, EPA published its proposed Yucca Mountain
radiation protection standards on August 27, 1999. The proposal would have limited
annual radiation doses to 15 millirems for the “reasonably maximally exposed
individual,” and to 4 millirems from groundwater exposure, for the first 10,000 years
of repository operation. EPA calculated that its standard would result in an annual
risk of fatal cancer for the maximally exposed individual of seven chances in a
million. The nuclear industry criticized the EPA proposal as being unnecessarily
stringent, particularly the groundwater standard. On the other hand, environmental
groups contended that the 10,000-year standard proposed by EPA was too short,
because DOE had projected that radioactive releases from the repository would peak
after about 400,000 years.
EPA issued its final Yucca Mountain standards on June 6, 2001. The final
standards included most of the major provisions of the proposed version, including
the 15 millirem overall exposure limit and the 4 millirem groundwater limit. Despite
the Department’s opposition to the EPA standards, DOE’s site suitability evaluation
14 National Research Council. Technical Bases for Yucca Mountain Standards. National
Academy Press. 1995.

CRS-13
determined that the Yucca Mountain site would be able to meet them. NRC revised
its repository regulations September 7, 2001, to conform to the EPA standards.
In a ruling that could delay the nuclear waste program, a three-judge U.S. Court
of Appeals panel on July 9, 2004, struck down the 10,000-year regulatory compliance
period in the EPA and NRC Yucca Mountain standards.15 The court ruled that the
10,000-year period was inconsistent with the NAS study on which the Energy Policy
Act required the Yucca Mountain regulations to be based. In fact, the court found,
the NAS study had specifically rejected a 10,000-year compliance period because of
analysis that showed peak radioactive exposures from the repository would take place
several hundred thousand years in the future.
In response to the court decision, EPA proposed a new version of the Yucca
Mountain standards on August 9, 2005. The proposal would retain the dose limits
of the previous standard for the first 10,000 years but allow a higher annual dose of
350 millirems for the period of 10,000 years through 1 million years. The Final
Environmental Impact Statement for the Yucca Mountain repository estimates that
mean peak doses — occurring after 400,000 years — would be about 150 millirems
(Volume 1, Chapter 5). EPA also is proposing to base the new Yucca Mountain
standard on the median dose, rather than the mean, potentially making it easier to
meet.16 Nevada state officials called EPA’s proposed standard far too lenient and
charged that it was “unlawful and arbitrary.”17
Alternative Technologies. Several alternatives to the geologic disposal of
spent fuel have been studied by DOE and its predecessor agencies, as well as
technologies that might make waste disposal easier. However, most of these
technologies involve large technical obstacles, uncertain costs, and potential public
opposition.
Among the primary long-term disposal alternatives to geologic repositories are
disposal in deep ocean trenches and transport into space, neither of which is currently
being studied by DOE. Other technologies have been studied that, while probably
not replacing geologic disposal, might make geologic disposal safer and more
predictable. Chief among these is the reprocessing or “recycling” of spent fuel so that
plutonium, uranium, and other long-lived radionuclides could be converted to
faster-decaying fission products in special nuclear reactors or particle accelerators.
The spent fuel recycling provisions in the FY2006 Energy and Water Development
Appropriations bill and the Administration’s GNEP initiative, discussed above, seem
to indicate growing interest in this area.
15 Nuclear Energy Institute v. Environmental Protection Agency, U.S. Court of Appeals for
the District of Columbia Circuit, No. 01-1258, July 9, 2004.
16 Especially high doses at the upper end of the exposure range would raise the mean, or
average, more than the median, or the halfway point in the data set.
17 Office of the Governor, Agency for Nuclear Projects. Comments by the State of Nevada
on EPA’s Proposed New Radiation Protection Rule for the Yucca Mountain Nuclear Waste
Repository
. November 2005.

CRS-14
Funding. DOE is requesting $544.5 million in FY2007 for the Office of
Civilian Radioactive Waste Management. The request is 10% above the FY2006
appropriation of $495 million but nearly $30 million below the FY2005 level, when
Congress and DOE had anticipated a rapid funding escalation to open the Yucca
Mountain repository by 2010. According to DOE, the FY2007 funding request will
allow OCRWM to continue revising the Yucca Mountain license application to
reflect the recently announced canistered fuel concept, correct quality assurance
problems, and meet the new EPA environmental standards. However, there is no
announced target date for completing the license application. A significant funding
increase for transportation would allow completion of an environmental impact
statement and record of decision on a proposed 320-mile rail spur to Yucca
Mountain.18
Funding for the program is provided under two appropriations accounts, as
shown in Table 1. The Administration is requesting $156.4 million from the Nuclear
Waste Fund, which holds the fees paid by nuclear utilities. An additional $388.1
million is requested under the Defense Nuclear Waste Disposal account, which pays
for disposal of high-level waste from the nuclear weapons program in the planned
Yucca Mountain repository. The House on May 24, 2006, approved $574.5 million
for the program in its version of the FY2007 Energy and Water Development
Appropriations Bill (H.R. 5427, H.Rept. 109-474), with the additional $30 million
— not to be derived from the Nuclear Waste Fund — to be used for interim waste
storage if authorizing legislation is enacted.
Table 1. DOE Civilian Spent Fuel Management Funding
(in millions of current dollars)
FY2005
FY2006
FY2007
FY2007
Program
Approp.
Approp.
Request
House
Yucca Mountain
413.1
306.0
355.4
—*
Transportation
30.7
20.0
67.7

Program integration
49.3
40.5
46.0

Program direction
79.4
79.2
75.4

Spent fuel recycling

49.5


Interim storage



30.0
Total
572.4
495.0
544.5
574.5
Source of Funding
Nuclear Waste Fund
343.3
148.5
156.4
156.4
appropriations
Unspecified



30.0
Defense waste appropriations
229.2
346.5
388.1
388.1
Sources: Appropriations Committee reports, DOE FY2006 Congressional Budget Request.
* Subcategories not specified.
18 DOE, FY2007 Congressional Budget, vol. 4, p. 566.

CRS-15
Although nuclear utilities pay fees to the Nuclear Waste Fund to cover the
disposal costs of civilian nuclear spent fuel, DOE cannot spend the money in the fund
until it is appropriated by Congress. Through December 31, 2005, utility nuclear
waste fees and interest totaled $24.861 billion, of which $6.576 billion had been
disbursed to the waste disposal program, according to DOE’s program summary
report, leaving a balance of $18.285 billion in the Nuclear Waste Fund. The nuclear
waste program’s appropriations for FY1983-FY2006 total $9.212 billion, according
to DOE, including $2.969 billion for defense waste disposal.19
The DOE Total System Life Cycle Cost Report, issued in May 2001 and
updated in September 2003, estimates that the entire nuclear waste program will cost
$56 billion (in constant 2000 dollars) through 2119.
Low-Level Radioactive Waste
Current Policy. Selecting disposal sites for low-level radioactive waste,
which generally consists of low concentrations of relatively short-lived radionuclides,
is a state responsibility under the 1980 Low-level Radioactive Waste Policy Act and
1985 amendments. Most states have joined congressionally approved interstate
compacts to handle low-level waste disposal, while others are developing single-state
disposal sites. Under the 1985 amendments, the nation’s three (at that time)
operating commercial low-level waste disposal facilities could start refusing to accept
waste from outside their regional interstate compacts after the end of 1992. One site
is currently using that authority and another closed, leaving one open to nationwide
disposal of all major types of low-level waste and one open only regionally. A third
site, in Utah, has since become available nationwide for most Class A low-level
waste.
Despite the 1992 deadline, no new disposal sites have been opened. Legislation
providing congressional consent to a disposal compact among Texas, Maine, and
Vermont was signed by President Clinton September 20, 1998 (P.L. 105-236).
However, on October 22, 1998, a proposed disposal site near Sierra Blanca, Texas,
was rejected by the Texas Natural Resource Conservation Commission, and Maine
has since withdrawn. Texas Governor Perry signed legislation June 20, 2003,
authorizing the Texas Commission on Environment Quality to license adjacent
disposal facilities for commercial and federally generated low-level waste. Pursuant
to that statute, an application to build a disposal facility for commercial and federal
low-level waste in Andrews County, Texas, was filed August 2, 2004, by Waste
Control Specialists LLC.
The Midwestern Compact voted June 26, 1997, to halt development of a
disposal facility in Ohio. Nebraska regulators rejected a proposed waste site for the
Central Compact December 21, 1998, drawing a lawsuit from five utilities in the
region. A U.S. district court judge ruled September 30, 2002, that Nebraska had
exercised bad faith in disapproving the site and ordered the state to pay $151 million
19 DOE, Office of Civilian Radioactive Waste Management, Office of Program
Management, Monthly Summary of Program Financial and Budget Information, as of
December 31, 2005, available at [http://www.ocrwm.doe.gov/about/budget/money.shtml].

CRS-16
to the compact. A settlement was reached August 9, 2004, in which Nebraska will
pay the compact $140.4 million, and the compact will seek access to the planned
Texas disposal facility. Most other regional disposal compacts and individual states
that have not joined compacts are making little progress toward finding disposal
sites, largely because of public opposition and the continued availability of the
disposal facilities in South Carolina and, for most Class A waste, Utah.
One disposal facility, at Barnwell, South Carolina, is currently accepting all
Class A, B and C low-level waste from most states. The Barnwell facility had
stopped accepting waste from outside the Southeast Compact at the end of June
1994. The Southeast Compact Commission in May 1995 twice rejected a South
Carolina proposal to open the Barnwell site to waste generators outside the Southeast
and to bar access to North Carolina until that state opened a new regional disposal
facility, as required by the compact. The rejection of those proposals led the South
Carolina General Assembly to vote in 1995 to withdraw from the Southeast Compact
and begin accepting waste at Barnwell from all states but North Carolina. North
Carolina withdrew from the Southeast Compact July 26, 1999, a move that prompted
a lawsuit from the compact on July 10, 2000.
South Carolina joined the Atlantic Compact (formerly the Northeast Compact)
with Connecticut and New Jersey on July 1, 2000. Under the compact, South
Carolina can limit the use of the Barnwell facility to the three compact members. A
state law enacted in June 2000 phases out acceptance of non-compact waste through
2008.
The only other existing disposal facility for all three major classes of low-level
waste is at Hanford, Washington. Controlled by the Northwest Compact, the
Hanford site will continue taking waste from the neighboring Rocky Mountain
Compact under a contract. States barred from access to existing disposal facilities are
likely to require low-level waste generators to store their waste on site until new
disposal sites are available, particularly for Class B and C waste.
Regulatory Requirements. Licensing of commercial low-level waste
facilities is carried out under the Atomic Energy Act by NRC or by “agreement
states” with regulatory programs approved by NRC. NRC regulations governing
low-level waste licenses must conform to general environmental protection standards
and radiation protection guidelines issued by EPA. Transportation of low-level waste
is jointly regulated by NRC and the Department of Transportation.
Most states considering new or expanded low-level waste disposal facilities,
including Texas and Utah, are agreement states. Most states, both agreement and
non-agreement, have established substantially stricter technical requirements for
low-level waste disposal than NRC’s, such as banning shallow land burial and
requiring concrete bunkers and other engineered barriers. NRC would issue the
licenses in non-agreement states.

CRS-17
Concluding Discussion
Disposal of radioactive waste will be a key issue in the continuing nuclear
power debate. Without a national disposal system, spent fuel from nuclear power
plants must be stored on-site indefinitely. This situation may raise public concern
near proposed reactor sites, particularly at sites without existing reactors where spent
nuclear fuel is already stored. Several states have tied approval of new reactors to the
availability of waste disposal capacity.20
Under current law, the federal government’s waste disposal policy is focused
on the planned Yucca Mountain repository. Despite presidential and congressional
approval for the Yucca Mountain licensing process to go forward, DOE currently has
no announced timetable for submitting a license application and will face relentless
opposition from the State of Nevada during NRC licensing proceedings. EPA’s
proposed new environmental standards for Yucca Mountain may face legal
challenges as well, which could further slow the process.
Because of their waste-disposal contracts with DOE, owners of existing reactors
are likely to continue seeking damages from the federal government if disposal
delays continue. DOE’s 2004 settlement with the nation’s largest nuclear operator,
Exelon, could require payments of up to $600 million from the federal judgment
fund, and the nuclear industry has predicted that future damages could reach tens of
billions of dollars if no disposal progress is made.
The Administration’s proposed nuclear waste legislation (S. 2589, H.R. 5360)
is intended to remove some of the obstacles to opening Yucca Mountain and to
remove the lack of permanent waste disposal as an obstacle to licensing new nuclear
power plants. However, it is uncertain whether the legislation will see action in the
remaining months of the 109th Congress. The House Appropriations Committee is
urging that the federal government provide interim storage of spent nuclear fuel
pending a permanent solution, but that option has proven highly controversial in the
past.
The Administration’s proposed Global Nuclear Energy Partnership would open
the door for spent fuel reprocessing as a long-term option for handling nuclear waste.
Reprocessing (or recycling) proponents have long contended that direct disposal of
spent fuel — as currently planned — would waste a potentially vast energy resource
and that reprocessing could reduce the long-term hazard posed by nuclear waste.
However, the United States has not pursued commercial reprocessing since the
1970s, because of concerns over nuclear nonproliferation and costs. Heated reaction,
both pro and con, to the Administration’s latest initiative indicates that the
controversy has not receded in the meantime.
20 Wiese, Steven M., State Regulation of Nuclear Power, CRS Report Prepared for the
House Committee on Interior and Insular Affairs, December 14, 1992, p. 18.

CRS-18
109th Congress Legislation
H.R. 526 (Berkley)
Redirects the Nuclear Waste Fund established under the Nuclear Waste Policy
Act of 1982 into research, development, and utilization of risk-decreasing
technologies for the onsite storage and eventual reduction of radiation levels of
nuclear waste. Introduced February 2, 2005; referred to Committees on Energy and
Commerce; Science; and Ways and Means.
H.R. 895 (Berkley)
Provides for interagency planning for preparing for, defending against, and
responding to the consequences of terrorist attacks against the Yucca Mountain
Project. Introduced February 17, 2005; referred to Committees on Energy and
Commerce and Homeland Security.
H.R. 2419 (Hobson)
Energy and Water Development Appropriations for FY2006. Provides funding
for DOE nuclear waste program. Reported as an original measure by the House
Committee on Appropriations and introduced May 18, 2005 (H.Rept. 109-86).
Passed House May 24, 2005, by vote of 416-13. Passed Senate July 1, 2005, by vote
of 92-3 (S.Rept. 109-84). Signed by the President November 19, 2005 (H.Rept. 109-
275, P.L. 109-103).
H.R. 4538 (Matheson)/S. 2099 (Reid)
Spent Nuclear Fuel On-Site Storage Security Act of 2005. Requires commercial
nuclear power plants to transfer spent fuel from pools to dry storage casks and then
convey title to the Secretary of Energy. Introduced December 14, 2005. House bill
referred to Committee on Energy and Commerce; Senate bill referred to Committee
on Environment and Public Works.
H.R. 5427 (Hobson)
Energy and Water Development Appropriations Act, 2007. Provides funding for
DOE nuclear waste program. Reported by Appropriations Committee as an original
measure May 19, 2006 (H.Rept. 109-574). Passed House May 24, 2006, by vote of
404-20.
S. 2589 (Domenici, by request)/H.R. 5360 (Barton, by request)
Nuclear Fuel Management and Disposal Act. Changes requirements for
licensing, construction, and operation of planned Yucca Mountain nuclear waste
repository. Senate bill introduced April 6, 2006; referred to Committee on Energy
and Natural Resources. House bill introduced May 11, 2006; referred to multiple
committees.

CRS-19
Congressional Hearings, Reports, and Documents
U.S. Congress. House. Committee on Energy and Commerce. Subcommittee on
Energy and Air Quality. A Review of the President’s Recommendation to
Develop a Nuclear Waste Repository at Yucca Mountain, Nevada
. Hearing,
107th Congress, 2nd session. April 18, 2002. Washington: GPO, 2002. 294 p.
Serial no. 107-99.
U.S. Congress. Senate. Committee on Energy and Natural Resources. Low-Level
Radioactive Waste. Hearing, 108th Congress, 2nd session. September 30, 2004.
Washington: GPO, 2005. 62 p.
U.S. Congress. Senate. Yucca Mountain Repository Development. Hearings, 107th
Congress, 1st session. May 16, 22, and 23, 2002. Washington: GPO, 2002. 240
p. S. Hrg. 107-483.
For Additional Reading
Harvard University. John F. Kennedy School of Government. Belfer Center for
Science and International Affairs. The Economics of Reprocessing vs. Direct
Disposal of Spent Nuclear Fuel.
DE-FG26-99FT4028. December 2003.
Nuclear Waste Technical Review Board. Report to the U.S. Congress and the U.S.
Secretary of Energy. May 2005. [http://www.nwtrb.gov/reports/reports.html]
U.S. Department of Energy. Office of Civilian Radioactive Waste Management home
page; covers DOE activities for disposal, transportation, and other management
of civilian nuclear waste. [http://www.ocrwm.doe.gov].
U.S. General Accounting Office. Low-Level Radioactive Waste: Disposal
Availability Adequate in the Short Term, but Oversight Needed to Identify Any
Future Shortfalls.
GAO-04-604. June 2004. 53 p.