Order Code IB88090
Issue Brief for Congress
Received through the CRS Web
Nuclear Energy Policy
Updated September 20, 2002
Mark Holt and Carl E. Behrens
Resources, Science, and Industry Division
Congressional Research Service ˜ The Library of Congress

CONTENTS
SUMMARY
MOST RECENT DEVELOPMENTS
BACKGROUND AND ANALYSIS
Overview of Nuclear Power in the United States
Nuclear Power Research and Development
Nuclear Power Plant Safety and Regulation
Safety and Security
Domestic Reactor Safety
Security and Emergency Planning
Reactor Safety in the Former Soviet Bloc
Licensing and Regulation
Decommissioning and Life Extension
Nuclear Accident Liability
Nuclear Waste Management
Weapons Program Cleanup and Disposal
Federal Funding for Nuclear Energy Programs
LEGISLATION


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Nuclear Energy Policy
SUMMARY
Nuclear energy policy issues facing Con-
tions Bill (H.R. 3338), passed by Congress
gress include questions about radioactive
December 20, 2001.
waste management, research and development
priorities, power plant safety and regulation,
Disposal of highly radioactive waste has
terrorism, the Price-Anderson Act radiation
been one of the most controversial aspects of
liability system, nuclear weapons prolifera-
nuclear power. The Nuclear Waste Policy Act
tion, plutonium disposition, and technology
of 1982 (NWPA, P.L. 97-425), as amended in
for producing nuclear fuel.
1987, requires DOE to begin detailed physical
characterization of Yucca Mountain in Nevada
Federal funding for nuclear energy re-
as a permanent underground repository for
search and development was substantially
high-level waste.
reduced by the Clinton Administration, and
some advanced reactor programs were
President Bush recommended approval
eliminated. The Bush Administration has
of the site February 15, 2002, and Nevada
stressed the importance of nuclear power in
Governor Guinn on April 8, 2002, issued a
the nation’s energy policy, although it has
“state veto” of the site, as allowed by NWPA.
requested relatively little additional R&D
On May 8, 2002, the House passed a resolu-
funding. The Administration’s FY2003 bud-
tion to overturn the “state veto” and allow
get request includes $38.5 million for a De-
further activity at Yucca Mountain to proceed
partment of Energy (DOE) effort to encourage
(H.J.Res. 87). The resolution was passed by
deployment of new commercial nuclear power
the Senate on July 9 and signed by the Presi-
plants by 2010. That funding proposal has
dent July 23 (P.L. 107-200).
been largely approved by the House and
Senate Appropriations Committees.
Whether progress on nuclear waste
disposal and other congressional action will
Several bills have been introduced in the
revive the U.S. nuclear power industry’s
107th Congress to encourage the growth of
growth will depend primarily on economic
nuclear power. A number of nuclear provi-
considerations. Natural gas- and coal-fired
sions are included in comprehensive energy
powerplants currently are favored over nuclear
legislation (H.R. 4) passed by the House
reactors for new generating capacity. Howev-
August 2, 2001, and by the Senate April 25,
er, rising energy prices and electricity short-
2002.
ages have led some utilities to consider build-
ing new reactors.
The September 11, 2001, terrorist attacks
on the United States raised questions about
A major part of DOE’s budget goes to
nuclear power plant security. Reactor secu-
cleaning up facilities formerly used to produce
rity provisions were included in a Price-An-
nuclear weapons. Among the more controver-
derson extension bill passed by the House
sial of these activities is the disposal of pluto-
November 27, 2001 (H.R. 2983), and in
nium from dismantled weapons, which has
several other bills. An extra $36 million for
stimulated conflict between DOE and South
nuclear power plant security was provided by
Carolina over plans to build a conversion
the FY2002 supplemental appropriations bill,
facility at the Savannah River Site in that
included in the FY2002 Defense Appropria-
state.
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MOST RECENT DEVELOPMENTS
President Bush’s FY2003 budget request, submitted to Congress February 4, would
provide $38.5 million for a Department of Energy (DOE) effort to encourage deployment of
new commercial nuclear power plants by 2010. The overall budget request for nuclear
energy programs is $249.8 million, similar to the FY2002 appropriation. A 40% increase
is being sought for the DOE nuclear waste disposal program, to $526.7 million. The
Administration’s nuclear funding proposals were generally approved by the House
Appropriations Committee September 5 and by the Senate Appropriations Committee on July
24, except for a deep reduction in the nuclear waste request recommended by the Senate
panel.

President Bush recommended to Congress February 15 that a license application be
submitted to NRC to build a nuclear waste repository at Yucca Mountain. Nevada Governor
Guinn on April 8 exercised his right under the Nuclear Waste Policy Act to send Congress
a notice of disapproval for the Yucca Mountain site. That so-called “state veto” would have
blocked further action at the site if a congressional resolution to approve the site had not
been enacted into law within 90 days of continuous session. The House passed a Yucca
Mountain approval resolution (H.J.Res. 87) on May 8 by a 306-117 vote. The Senate
approved the resolution by voice vote July 9 (following a 60-39 vote to consider S.J. Res. 34,
the Senate version of the resolution), and the President signed it July 24 (P.L. 107-200).

The Senate Committee on Environment and Public Works on July 25 approved a bill
(S. 1746) to address concerns about nuclear power plant security in light of the September
11, 2001, terrorist attacks. The bill requires a comprehensive review of nuclear power plant
security, establishes a multi-agency security task force, and requires the President to
establish a federal team to ensure coordinated protection of air, water, and land access to
nuclear power plants.

The Senate on April 25 approved its version of omnibus energy legislation (H.R. 4),
which includes provisions to extend the Price-Anderson Act nuclear liability system 10 years
for commercial reactors and indefinitely for DOE nuclear contractors. The bill would allow
nuclear plants consisting of several small modules to be treated as a single reactor under
the Price-Anderson system. The House approved a 15-year extension of the Price-Anderson
Act on November 27, 2001 (H.R. 2983). Conferees meeting to resolve differences between
House and Senate versions of H.R. 4 voted September 12 to include a 15-year extension of
Price-Anderson in the bill.

BACKGROUND AND ANALYSIS
Overview of Nuclear Power in the United States
The U.S. nuclear power industry, while currently generating about 20% of the nation’s
electricity, faces an uncertain long-term future. No nuclear plants have been ordered since
1978 and more than 100 reactors have been canceled, including all ordered after 1973. No
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units are currently under active construction; the Tennessee Valley Authority’s Watts Bar 1
reactor, ordered in 1970 and licensed to operate in 1996, was the most recent U.S. nuclear
unit to be completed. The nuclear power industry’s troubles include high nuclear power
plant construction costs, public concern about nuclear safety and waste disposal, and
regulatory compliance costs.
High construction costs are perhaps the most serious obstacle to nuclear power
expansion. Construction costs for reactors completed since the mid-1980s have ranged from
$2-$6 billion, averaging more than $3,000 per kilowatt of electric generating capacity (in
1997 dollars). The nuclear industry predicts that new plant designs could be built for less
than half that amount if many identical plants were built in a series, but such economies of
scale have yet to be demonstrated.
Nevertheless, all is not bleak for the U.S. nuclear power industry, which currently
comprises 103 licensed reactors at 65 plant sites in 31 states. (That number excludes the
Tennessee Valley Authority’s (TVA’s) Browns Ferry 1, which has not operated since 1985;
the TVA Board decided May 16, 2002, to spend about $1.8 billion to restart the reactor by
2007.) Electricity production from U.S. nuclear power plants is greater than that from oil,
natural gas, and hydropower, and behind only coal, which accounts for 55% of U.S.
electricity generation. Nuclear plants generate more than half the electricity in six states.
The 769 billion kilowatt-hours of nuclear electricity generated in the United States during
2001 was more than the nation’s entire electrical output in 1963, when the first of today’s
large-scale commercial reactors were being ordered.
Average operating costs of U.S. nuclear plants dropped substantially during the past
decade, and costly downtime has been steadily reduced. Licensed commercial reactors
generated electricity at a record-high average of more than 88% of their total capacity in
2001, according to industry statistics.1
Ten commercial reactors have received 20-year license extensions from the Nuclear
Regulatory Commission (NRC), giving them up to 60 years of operation. License extensions
for 13 more reactors are currently under NRC review.2
Industry consolidation could also help existing nuclear power plants, as larger nuclear
operators purchase plants from utilities that run only one or two reactors. Several such sales
have been announced, including the March 2001 sale of the Millstone plant in Connecticut
to Dominion Energy for a record $1.28 billion. The merger of two of the nation’s largest
nuclear utilities, PECO Energy and Unicom, completed in October 2000, consolidated the
operation of 17 reactors under a single corporate entity, Exelon Corporation.
Existing nuclear power plants appear to hold a strong position in the ongoing
restructuring of the electricity industry. In most cases, nuclear utilities have received
favorable regulatory treatment of past construction costs, and average nuclear operating costs
1 “U.S. Nuclear Record Sustained as 2001 Output nears 800-Million MWH,” Nucleonics Week,
February 14, 2002, p. 1.
2 “Florida Reactors Get License Extension,” The Energy Daily, June 10, 2002.
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are currently estimated to be lower than those of competing technologies.3 Although eight
U.S. nuclear reactors have permanently shut down since 1990, recent reactor sales could
indicate greater industry interest in nuclear plants that previously had been considered
marginal. Despite the shutdowns, total U.S. nuclear electrical output increased nearly 25%
from 1990 to 2000, according to the Energy Information Administration. The increase
resulted primarily from reduced downtime at the remaining plants, the startup of five new
units, and reactor modifications to boost capacity.
A spike in fossil fuel prices and shortages of electricity during 2000-2001 helped
encourage at least two nuclear operating companies to consider building new commercial
nuclear reactors. Exelon helped form an international consortium that may build a
demonstration Pebble Bed Modular Reactor (PBMR) in South Africa, a reactor cooled by
helium that is intended to be highly resistant to accidents. However, Exelon announced in
April 2002 that it would leave the consortium after a feasibility study is completed. Entergy,
Dominion Resources, and Exelon have chosen sites in Mississippi, Virginia, and Illinois,
respectively, for possible future nuclear units.4 The Department of Energy (DOE) included
an initiative in its FY2003 budget request to encourage construction of new commercial
reactors by 2010.
Global warming that may be caused by fossil fuels — the “greenhouse effect” — is
cited by nuclear power supporters as an important reason to develop a new generation of
reactors. But the large obstacles noted above must still be overcome before electric
generating companies will risk ordering new nuclear units.
A nuclear energy bill by Senator Domenici, S. 472, is intended to overcome some of the
obstacles to new reactors. Among the bill’s provisions are a demonstration of the approval
process for new reactor sites, the designation of nuclear power as “an environmentally
preferable product” for government procurement purposes and as an “emission-free
electricity source” under the Clean Air Act, the inclusion of nuclear power in any
“greenhouse gas” incentive programs, and changes in nuclear licensing requirements and
procedures.
Nuclear Power Research and Development
The Bush Administration’s National Energy Policy, issued in May 2001, calls for “the
expansion of nuclear energy in the United States.” The FY2003 nuclear energy request
reflects that policy with a funding initiative to encourage construction of new commercial
reactors by 2010 and additional funding for advanced reactor designs. However, total
funding for nuclear energy supply programs would remain about the same as in FY2002.
3 “Production Costs Made Nuclear Cheapest Fuel in 1999, NEI Says,” Nucleonics Week, January 11,
2001, p. 3.
4 Beattie, Jeff. “Entergy Names Mississippi Site for Possible New Reactor,” Energy Daily, April
17, 2002. p. 4. Weil, Jenny. “Exelon Selects Clinton Site for Possible New Reactor,” Nucleonics
Week
, May 2, 2002. p. 1.
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The budget request would provide $46.5 million for nuclear energy technologies, which
includes $38.5 million for DOE’s “Nuclear Power 2010” initiative and $8.0 million for
“Generation IV” advanced reactor technologies that could be ready for deployment after
2010. The House Appropriations Committee on September 5, 2002, recommended cutting
the nuclear energy technologies request to $41.5 million so that $5 million could be shifted
to the nuclear energy plant optimization program (NEPO, described below), which the
Administration had proposed to terminate. The Senate Appropriations Committee voted July
24 to boost the nuclear energy technologies request to $48.5 million.
According to the DOE budget justification, the Nuclear Power 2010 program, which is
to receive a $30.5 million increase over FY2002, will “identify the technical, institutional
and regulatory barriers to the deployment of new nuclear power plants by 2010.” The
program seeks to deploy both a water-cooled reactor (similar to most existing commercial
plants) and a gas-cooled reactor. The current phase of the initiative would include site
approval, reactor design certification, license applications, detailed design work, and
development of improved construction techniques. DOE announced it would seek proposals
for joint DOE/industry teams in which DOE would pay up to half the cost of these activities.
DOE is requesting $8.0 million in FY2003 – double the FY2002 level – for Generation
IV technologies. A variety of concepts are under consideration, according to the budget
justification, including reactors fueled by plutonium recovered through reprocessing of spent
nuclear fuel. The Administration’s National Energy Policy report contends that plutonium
recovery could reduce the long-term environmental impact of nuclear waste disposal and
increase domestic energy supplies. However, opponents contend that the separation of
plutonium from spent fuel poses unacceptable environmental risks and undermines U.S.
policy on nuclear weapons proliferation.
DOE is requesting $18 million to study pyroprocessing technology and for
electrometallurgical treatment of spent fuel from the Experimental Breeder Reactor II (EBR-
II) in Idaho. No funding is requested for waste transmutation, which involves bombarding
nuclear waste with neutrons from a fast reactor or particle accelerator to convert long-lived
radioactive isotopes into radioisotopes that decay more quickly. Because those programs
involve plutonium separation, they are generally opposed by nuclear nonproliferation groups.
DOE announced July 17, 2002, that work on advanced nuclear reactor and reprocessing
technologies would be centered at the Idaho National Engineering and Environmental
Laboratory (INEEL), which would be placed under the control of the DOE Office of Nuclear
Energy, Science, and Technology. The Senate Appropriations Committee would provide
$77.9 million for those activities, including the requested $18 million for EBR-II fuel
treatment. According to the Senate report, “This program subsumes the Advanced
Accelerator Applications program and its activities and will focus on the development of
advanced fuel cycles, recycle or reprocessing of spent fuel, and transmutation technologies.”
The House panel approved only the requested $18 million.
A DOE program to support innovative nuclear energy research projects, the “nuclear
energy research initiative” (NERI), would receive $25 million under the FY2003 request, a
$7 million reduction from FY2002. The House Appropriations Committee recommended
the full NERI request, while the Senate Appropriations Committee called for a $4 million
increase. As noted above, the House panel recommended $5 million for NEPO, a research
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program to improve the economic competitiveness of existing nuclear power plants. The
Senate Appropriations Committee also recommended $5 million for the program, $2 million
below the FY2002 level.
Several nuclear research and development provisions are included in comprehensive
energy legislation (H.R. 4) approved by the House August 2, 2001, and the Senate April 25,
2002. Both versions of the bill would authorize a DOE research program on nuclear waste
reprocessing technology. The House and Senate versions of H.R. 4 also would authorize
appropriations for NERI, NEPO, and the nuclear energy technologies program. The Senate
version would specifically authorize the Administration’s Nuclear Power 2010 initiative.
Future nuclear plant orders depend primarily on whether new designs can cut
construction costs by more than half from their average of the past two decades. It is not yet
clear whether that cost goal can be achieved. (For more about nuclear power plant costs, see
CRS Report RL31064, Nuclear Power: Prospects for New Commercial Reactors.)
Nuclear Power Plant Safety and Regulation
Safety and Security
Controversy over safety has dogged nuclear power throughout its development,
particularly following the March 1979 Three Mile Island accident in Pennsylvania and the
April 1986 Chernobyl disaster in the former Soviet Union. In the United States, safety-relat-
ed shortcomings have been identified in the construction quality of some plants, plant
operation and maintenance, equipment reliability, emergency planning, and other areas. In
a recent example, it was discovered in March 2002 that leaking boric acid had eaten a large
cavity in the top of the reactor vessel in Ohio’s Davis-Besse nuclear plant. The corrosion left
only the vessel’s quarter-inch-thick stainless steel inner liner to prevent a potentially
catastrophic release of reactor cooling water.
NRC’s oversight of the nuclear industry is an ongoing issue; nuclear utilities often
complain that they are subject to overly rigorous and inflexible regulation, but nuclear critics
charge that NRC frequently relaxes safety standards when compliance may prove difficult
or costly to the industry. In the wake of the September 11, 2001, terrorist attacks against the
United States, concerns about nuclear power plant security have received heightened
attention.
Domestic Reactor Safety. In terms of public health consequences, the safety record
of the U.S. nuclear power industry in comparison with other major commercial energy
technologies has been excellent. In more than 2,250 reactor-years of operation in the United
States, the only incident at a commercial power plant that might lead to any deaths or injuries
to the public has been the Three Mile Island accident, in which more than half the reactor
core melted. Public exposure to radioactive materials released during that accident is
expected to cause fewer than five deaths (and perhaps none) from cancer over the following
30 years.
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The relatively small amounts of radioactivity released by nuclear plants during normal
operation are not generally believed to pose significant hazards, although some groups
contend that routine emissions are unsafe. There is substantial scientific uncertainty about
the level of risk posed by low levels of radiation exposure; as with many carcinogens and
other hazardous substances, health effects can be clearly measured only at relatively high
exposure levels. In the case of radiation, the assumed risk of low-level exposure has been
extrapolated mostly from health effects documented among persons exposed to high levels
of radiation, particularly Japanese survivors of nuclear bombing in World War II.
The consensus among most safety experts is that a severe nuclear power plant accident
in the United States is likely to occur less frequently than once every 10,000 reactor-years
of operation. These experts believe that most severe accidents would have small public
health impacts, and that accidents causing as many as 100 deaths would be much rarer than
once every 10,000 reactor-years. On the other hand, some experts challenge the complex
calculations that go into predicting such accident frequencies, contending that accidents with
serious public health consequences may be more frequent.
Security and Emergency Planning. Nuclear power plant security has been an
ongoing issue, but concerns were considerably increased following the terrorist attacks on
New York and Washington, D.C. At NRC’s recommendation, nuclear power plants in the
United States went to the highest level of security immediately after the attacks. The NRC
Emergency Operations Center was activated, as well as regional NRC emergency centers,
all of which maintained constant contact with the nation’s nuclear power plants.
NRC ordered all commercial reactors on February 26, 2002, to “implement interim
compensatory security measures for the generalized high-level threat environment.” Some
of the required security measures had been included in NRC’s previous security
recommendations. Although most of the detailed security requirements are secret, NRC said
they generally included:
! increase patrols at nuclear power plants;
! augmented security forces and capabilities;
! establishment of additional security posts;
! installation of additional physical barriers;
! vehicle checks at greater distances from vital facilities;
! enhanced plant security coordination with law enforcement and military
authorities; and
! more restrictive controls on personnel access to nuclear plant sites.
In light of the unprecedented attacks, NRC Chairman Richard A. Meserve, with the
support of the other Commissioners, ordered a staff review of NRC’s security regulations and
procedures. NRC received $36 million in FY2002 supplemental appropriations to pay for
analyzing the “design basis threats” that nuclear plants must be able to prevent, strengthen
personnel screening procedures for nuclear facilities, and improve emergency preparedness
programs and emergency communication capabilities. The funding was included in the
FY2002 Defense Appropriations bill (H.R. 3338), approved by Congress December 20,
2001. NRC is seeking an additional $29.3 million for FY2003 to continue its research effort
on security threats. The House and Senate Appropriations Committees have recommended
approval of the full NRC budget request.
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NRC regulations require nuclear power plants to be designed and operated to prevent
unauthorized intrusion and to withstand external attacks. However, reactor containment
structures are not specifically designed to withstand the types of deliberate air crashes that
were carried out September 11, according to an NRC fact sheet. Groups critical of the
nuclear industry contend that such a crash could cause a reactor meltdown, but some industry
officials have expressed confidence that no radioactive release would occur. NRC is
currently analyzing the potential effects of airliner attacks on nuclear power plants. To
prevent internal threats, background checks are required for unescorted access and
computerized security doors monitor the movement of personnel throughout each reactor
building. However, critics contend that existing personnel controls could be circumvented.
Nuclear plant security forces are tested periodically with mock attacks under NRC’s
Operational Safeguards Response Evaluation (OSRE) program. Nuclear power critics have
pointed out that numerous security weaknesses have been uncovered by the OSRE exercises,
although the significance of those problems has been the subject of debate. Based on
interviews with 20 security guards at 13 nuclear plant sites, a report issued September 12,
2002, by the Project on Government Oversight (POGO) contended that many nuclear plants
have too few guards, and that nuclear security forces often have inadequate training,
equipment, and pay.
Since the September 11 terrorist attacks, a number of groups have intensified their
criticism of NRC’s nuclear plant security requirements as being inadequate against
sophisticated assaults. A bill to extend the Price-Anderson Act nuclear liability system (H.R.
2983), approved by the House November 27, 2001, would require the federal government
to study a wide variety of security threats to nuclear facilities and to determine which threats
would come from enemies of the United States and therefore be the responsibility of the
federal government and which threats should be guarded against by nuclear power plant
owners. NRC would be required to issue new regulations to ensure that nuclear power plants
would be prepared for the threats identified as their responsibility. Other provisions would
require that NRC continue designing, implementing, and evaluating security exercises at
nuclear plants, rather than relying on an industry self-assessment program, and require NRC
to issue new security regulations for nuclear materials transportation. However, the
conference committee on H.R. 4, the omnibus energy bill, voted September 12, 2002, to
exclude the H.R. 2983 nuclear security provisions from H.R. 4’s Price-Anderson subtitle.
NRC would be required to take over the security forces at nuclear power plants under
companion bills introduced November 29, 2001, by Representative Markey and Senator Reid
(H.R. 3382, S. 1746). Supporters of the measure contend that existing guard forces hired by
reactor owners are inadequate, but NRC strongly opposes the provision on the grounds that
directly providing reactor security would interfere with its primary mission as an independent
safety regulator. The legislation also would require NRC to establish stockpiles of potassium
iodide (KI) tablets within at least 50 miles of nuclear power plants. The Senate Committee
on Environment and Public Works approved S. 1746 on July 25, 2002, but without the most
controversial provisions on the federalization of nuclear plant security forces and KI
distribution. Instead, the substitute measure would require a comprehensive review of
nuclear power plant security, establish a multi-agency security task force, and require the
President to establish a federal team to ensure coordinated protection of air, water, and land
access to nuclear power plants.
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A separate bill focused specifically on the KI issue was introduced by Representative
Markey on November 13, 2001 (H.R. 3279). If taken quickly enough, the tablets can prevent
radioactive iodine released during a nuclear accident from being absorbed in the thyroid
gland. On December 20, 2001, NRC offered to supply potassium iodide tablets to states in
which nuclear power plants are located or nearby. The Public Health Security and
Bioterrorism Preparedness and Response Act of 2002 (P.L. 107-188), signed June 12, 2002,
requires the federal government to give KI tablets to state and local governments to stockpile
at schools, hospitals, and other public facilities within 20 miles of nuclear power plants.
(For more information, see CRS Report RS21131, Nuclear Powerplants: Vulnerability
to Terrorist Attack, and CRS Terrorism Electronic Briefing Book fact sheet on Nuclear
Power Plant Emergency Response
, [http://www.congress.gov/brbk/html/ebter138.html].)
Reactor Safety in the Former Soviet Bloc. The Chernobyl accident was by far
the worst nuclear power plant accident to have occurred anywhere in the world. At least 31
persons died quickly from acute radiation exposure or other injuries, and thousands of
additional cancer deaths among the tens of millions of people exposed to radiation from the
accident may occur during the next several decades.
According to a November 1995 report by the Organization for Economic Cooperation
and Development (OECD), the primary observable health consequence of the accident has
been a dramatic increase in childhood thyroid cancer. About 1,000 cases of childhood thyroid
cancer were reported in certain regions surrounding the destroyed reactor — a rate that is as
much as a hundred times the pre-accident level, according to OECD. The death rate for
accident cleanup workers also rose measurably, the organization reported. The OECD report
estimated that about 50,000 square miles of land in Belarus, Ukraine, and Russia were
substantially contaminated with radioactive cesium.
World concern in recent years has focused on the safety of 13 other Chernobyl-type
reactors (called RBMKs) that are still operating in the former Soviet Union (the last
operating Chernobyl unit was permanently closed at the end of 2000). Despite safety
improvements made after the Chernobyl disaster, the RBMKs remain inherently unstable and
dangerous, according to many Western experts. Also still operating in the former Soviet bloc
are 10 early-model Soviet light water reactors (LWRs), which are similar to most Western
reactors but suffer from major safety deficiencies, such as the lack of Western-style
emergency cooling systems.
The United States is providing direct assistance for upgrading the safety of Soviet-
designed reactors, a program being coordinated by DOE, NRC, the Agency for International
Development (AID), and the Department of State. DOE is seeking $14.6 million in FY2003
for improving the operation and physical condition of Soviet-designed nuclear power plants,
a decrease of $6.5 million from FY2002. The Senate Appropriations Committee agreed with
the request, but the House Appropriations Committee cut it by $3 million. The General
Accounting Office estimates that $1.93 billion was provided through November 1999 by the
United States and other industrialized nations to improve the safety of Soviet-designed
reactors. Of that amount, $753 was contributed by the European Union, $532 by the United
States, $43 million by the International Atomic Energy Agency, and the remainder from 14
other countries.
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Licensing and Regulation
For many years a top priority of the nuclear industry was to modify the process for
licensing new nuclear plants. No electric utility would consider ordering a nuclear power
plant, according to the industry, unless licensing became quicker and more predictable, and
designs were less subject to mid-construction safety-related changes ordered by NRC. The
Energy Policy Act of 1992 largely implemented the industry’s licensing goals.
Nuclear plant licensing under the Atomic Energy Act of 1954 (P.L. 83-703; U.S.C.
2011-2282) had historically been a two-stage process. NRC first issued a construction permit
to build a plant, and then, after construction was finished, an operating permit to run it. Each
stage of the licensing process involved complicated proceedings. Environmental impact
statements also are required under the National Environmental Policy Act.
Over the vehement objections of nuclear opponents, the Energy Policy Act (P.L. 102-
486) provides a clear statutory basis for one-step nuclear licenses, which would combine the
construction permits and operating licenses and allow completed plants to operate without
delay if construction criteria are met. NRC would hold preoperational hearings on the
adequacy of plant construction only in specified circumstances. DOE’s Nuclear Power 2010
initiative proposes to pay up to half the cost of combined construction and operating licenses
for a water-cooled and a gas-cooled reactor. The House-passed version of H.R. 4 would
specify that a reactor’s 40-year operating period under a combined license would begin when
the reactor is ready to operate, rather than when the license is issued prior to construction.
A fundamental concern in the nuclear regulatory debate is the performance of NRC in
issuing and enforcing nuclear safety regulations. The nuclear industry and its supporters have
regularly complained that unnecessarily stringent and inflexibly enforced nuclear safety
regulations have burdened nuclear utilities and their customers with excessive costs. But
many environmentalists, nuclear opponents, and other groups charge NRC with being too
close to the nuclear industry, a situation that they say has resulted in lax oversight of nuclear
power plants and routine exemptions from safety requirements.
Primary responsibility for nuclear safety compliance lies with nuclear plant owners, who
are required to find any problems with their plants and report them to NRC. Compliance is
also monitored directly by NRC, which maintains at least two resident inspectors at each
nuclear power plant. The resident inspectors routinely examine plant systems, observe the
performance of reactor personnel, and prepare regular inspection reports. For serious safety
violations, NRC often dispatches special inspection teams to plant sites.
In response to congressional criticism, NRC has begun reorganizing and overhauling
many of its procedures. The Commission is moving toward “risk-informed regulation,” in
which safety enforcement is guided by the relative risks identified by detailed individual
plant studies. NRC began implementing a new reactor oversight system April 2, 2000, that
relies on a series of performance indicators to determine the level of scrutiny that each
reactor should receive. However, the Union of Concerned Scientists has questioned the
validity of the individual plant studies on which risk-informed regulation is based.
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Decommissioning and Life Extension
When nuclear power plants end their useful lives, they must be safely removed from
service, a process called decommissioning. NRC requires nuclear utilities to make regular
contributions to special trust funds to ensure that money is available to remove all radioactive
material from reactors after they are closed. Because no full-sized U.S. commercial reactor
has yet been completely decommissioned, which can take several decades, the cost of the
process can only be estimated. Decommissioning cost estimates cited by a 1996 DOE report,
for one full-sized commercial reactor, ranged from about $150 million to $600 million in
1995 dollars. Disposal of large amounts of low-level waste, consisting of contaminated
reactor components, concrete, and other materials, is expected to account for much of those
costs.
Consolidation of the nuclear industry has raised questions about the tax treatment of
decommissioning funds when a commercial reactor is sold. The House and Senate versions
of H.R. 4 specify that dedicated nuclear decommissioning funds can be transferred without
incurring additional tax liabilities.
Nuclear Accident Liability
Liability for damages to the general public from nuclear incidents is addressed by the
Price-Anderson Act (primarily Section 170 of the Atomic Energy Act of 1954, 42 U.S.C.
2210). The act was up for reauthorization on August 1, 2002, but even though an extension
has not been enacted, existing nuclear plants continue to operate under the current Price-
Anderson liability system.
Under Price-Anderson, the owners of commercial reactors must assume all liability for
nuclear damages awarded to the public by the court system, and they must waive most of
their legal defenses following a severe radioactive release (“extraordinary nuclear
occurrence”). To pay any such damages, each licensed reactor must carry financial
protection in the amount of the maximum liability insurance available, currently $200
million. Any damages exceeding that amount are to be assessed equally against all operating
commercial reactors, up to $83.9 million per reactor. Those assessments – called
“retrospective premiums” – would be paid at an annual rate of no more than $10 million per
reactor, to limit the potential financial burden on reactor owners following a major accident.
Including three that are not operating, 106 commercial reactors are currently covered by the
Price-Anderson retrospective premium requirement.
For each nuclear incident, therefore, the Price-Anderson liability system currently would
provide up to $9.09 billion in public compensation. That total includes the $200 million in
insurance coverage carried by the reactor that suffered the incident, plus the $83.9 million
in retrospective premiums from each of the 106 currently covered reactors. On top of those
payments, a 5% surcharge may also be imposed, raising the total per-reactor retrospective
premium to $88.1 million and total compensation to $9.5 billion. Under Price-Anderson, the
nuclear industry’s liability for an incident is capped at that amount, which varies depending
on the number of covered reactors, the amount of available insurance, and an inflation
adjustment that is made every 5 years. Payment of any damages above that liability limit
would require congressional approval under special procedures in the act.
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The Price-Anderson Act also covers contractors who operate hazardous DOE nuclear
facilities. The liability limit for DOE contractors is the same as for commercial reactors,
except when the limit for commercial reactors drops because of a decline in the number of
covered reactors. Since 1998, the number of covered commercial reactors has dropped from
110 to 106, so the commercial liability limit has dropped from $9.43 billion to $9.09 billion.
Under the law, however, the limit for DOE contractors does not decline and so remains at
$9.43 billion. Price-Anderson authorizes DOE to indemnify its contractors for the entire
amount, so that damage payments for nuclear incidents at DOE facilities would ultimately
come from the Treasury. However, the law also allows DOE to fine its contractors for safety
violations, and contractor employees and directors can face criminal penalties for “knowingly
and willfully” violating nuclear safety rules.
The House approved a 15-year extension of the Price-Anderson liability system
November 27, 2001 (H.R. 2983). The total retrospective premium for each reactor would
be raised to $94 million and the limit on per-reactor annual payments raised to $15 million,
with both to be adjusted for inflation every 5 years. For the purposes of those payment
limits, a nuclear plant consisting of multiple small reactors (100-300 megawatts, up to a total
of 950 megawatts) would be considered a single reactor. Therefore, a power plant with six
120-megawatt pebble-bed modular reactors would be liable for retrospective premiums of
up to $94 million, rather than $564 million. The liability limit on DOE contractors would
be set at $10 billion per accident, also to be adjusted for inflation.
The Senate included provisions in H.R. 4 to extend Price-Anderson coverage for new
commercial reactors for 10 years and indefinitely for DOE contractors. The liability limit
for commercial reactors would remain the same, with a five-year inflation adjustment, and
the limit for DOE contractors would be set at $10 billion with an inflation adjustment.
Modular reactors of 100-300 megawatts built together in a plant of up to 1,300 megawatts
could be considered a single reactor under Price-Anderson.
The House-passed Price-Anderson bill would authorize the federal government to sue
DOE contractors to recover at least some of the compensation that the government had paid
for any accident caused by intentional DOE contractor management misconduct. Such cost
recovery would be limited to the amount of the contractor’s profit under the contract
involved, and no recovery would be allowed from nonprofit contractors.
Although DOE is generally authorized to impose civil penalties on its contractors for
violations of nuclear safety regulations, Atomic Energy Act §234A specifically exempts
seven non-profit DOE contractors and their subcontractors. Under the same section, DOE
automatically remits any civil penalties imposed on non-profit educational institutions
serving as DOE contractors. H.R. 2983 would for future contracts eliminate the civil penalty
exemption for the seven listed non-profit contractors and DOE’s authority to automatically
remit penalties imposed on all non-profit educational institutions serving as contractors.
However, the bill would limit the civil penalties against a non-profit contractor to the amount
of discretionary fees (incentive fees above actual cost reimbursement) awarded by DOE
under that contract. The Senate’s Price-Anderson extension in H.R. 4 includes similar
provisions.
The House-Senate conference committee on H.R. 4 approved a compromise Price-
Anderson subtitle September 12, 2002. The compromise version would extend Price-
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Anderson indemnification authority for both NRC and DOE for 15 years, through August 1,
2017. The total retrospective premium per reactor would be set at $94 million, divided into
annual payments of no more than $15 million (with both limits to be adjusted for inflation
every 5 years). The liability limit for DOE contractors would be set at $10 billion, adjusted
for inflation every 5 years. Modular reactors of 100-300 megawatts would be treated as a
single reactor under Price-Anderson, up to a limit of 1,300 megawatts. The civil penalty
exemption for nonprofit contractors would be replaced with a nonprofit penalty limit.
The Price-Anderson Act’s limits on liability were crucial in establishing the commercial
nuclear power industry in the 1950s. Supporters of the Price-Anderson system contend that
it has worked well since that time in ensuring that nuclear accident victims would have a
secure source of compensation, at little cost to the taxpayer. However, opponents contend
that Price-Anderson subsidizes the nuclear power industry by protecting it from some of the
financial consequences of the most severe conceivable accidents.
Without an extension of the law, any commercial nuclear reactor licensed after August
1, 2002, could not be covered by the Price-Anderson system, although coverage would
continue for existing reactors. Because no new U.S. reactors are currently planned, missing
the deadline for extension would have little short-term effect on the nuclear power industry.
However, any new DOE contracts signed during Price-Anderson expiration would have to
use alternate indemnification authority. The Senate-passed version of the FY2003 defense
authorization bill (S. 2514) would extend DOE’s Price-Anderson indemnification authority
for 10 years (section 3171).
Nuclear Waste Management
One of the most controversial aspects of nuclear power is the disposal of radioactive
waste, which can remain hazardous for thousands of years. Each nuclear reactor produces
an annual average of about 20 tons of highly radioactive spent nuclear fuel and 50-200 cubic
meters of low-level radioactive waste. Upon decommissioning, contaminated reactor
components are also disposed of as low-level waste.
The federal government is responsible for permanent disposal of commercial spent fuel
(paid for with a fee on nuclear power) and federally generated radioactive waste, while states
have the authority to develop disposal facilities for commercial low-level waste. Spent fuel
and other highly radioactive waste is to be isolated in a deep underground repository,
consisting of a large network of chambers carved from rock that has remained geologically
undisturbed for hundreds of thousands of years.
The Nuclear Waste Policy Act of 1982 (NWPA, P.L. 97-425) as amended, names
Nevada’s Yucca Mountain as the sole candidate site for a national geologic repository.
Following the recommendation of Energy Secretary Abraham, President Bush on February
15, 2002, recommended to Congress that DOE submit an application to NRC to construct
the Yucca Mountain repository. As allowed by NWPA, Nevada Governor Guinn submitted
a “notice of disapproval” (or “state veto”) to Congress April 8, 2002. The state veto would
have blocked repository construction at Yucca Mountain if a congressional resolution
approving the site had not been enacted within 90 days of continuous session. The House
passed a Yucca Mountain approval resolution (H.J.Res. 87) on May 8, 2002, by a 306-117
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vote. The Senate approved the resolution by voice vote July 9 (following a 60-39 vote to
consider S.J. Res. 34, the Senate version of the resolution), and the President signed it July
24 (P.L. 107-200).
The Bush Administration is seeking $524.7 million for the DOE civilian waste disposal
program for FY2003, a 40% boost over FY2002. The increased budget is intended to pay
for preparation of a Yucca Mountain repository construction permit application, which DOE
expects to submit to NRC in FY2004 – a one-year delay from the previous schedule. The
additional funds are also needed for detailed repository design work, repository performance
studies, and transportation planning, according to DOE. The House Appropriations
subcommittee recommended the full request, but the Senate Appropriations Committee voted
to cut the request by $188 million.
(For further details, see CRS Issue Brief IB92059, Civilian Nuclear Waste Disposal.)
Weapons Program Cleanup and Disposal
According to DOE’s FY2003 budget justification, cleaning up contaminated nuclear
sites under the existing regulatory system “is projected to cost in the range of $220 billion
and take 70 years to complete. Costs continue to increase annually while schedules slip.”
A review ordered by Energy Secretary Abraham “indicates that the EM program has failed
to significantly reduce the risk presented to the public and the environment by the Cold
War’s nuclear legacy,” according to the justification.
Federal environmental laws make DOE sites subject to state and federal environmental
regulation, including the imposition of fines and penalties. DOE has signed numerous
legally binding compliance agreements with environmental regulators that establish specific
cleanup deadlines and other requirements. However, DOE contends that many of those
environmental requirements are overly costly, ineffective, and unnecessarily time-
consuming. (For more details see CRS Report RL31307, Appropriations for FY2003:
Energy and Water Development,
section on Department of Energy “Environmental
Management.”)
Among the more controversial programs in the cleanup activities is the disposal of
surplus plutonium from dismantled nuclear weapons, partly because it is being pursued in
conjunction with plans to dispose of a similar amount of plutonium from dismantled Soviet
weapons. The Clinton Administration proposed, as a means of disposing of weapons
plutonium from the U.S. nuclear arsenal, a “dual track” strategy of mixing plutonium with
uranium as mixed oxide (MOX) fuel for commercial power reactors, and vitrification
(dissolving in glass) and disposal of the plutonium unsuited for fuel and the resulting fission
products.
In July 1998 the Department of Energy issued a draft Environmental Impact Statement
on the plutonium disposition program. An agreement with Russia signed in September 2000
set up a similar program for Russian plutonium disposal. However, in submitting its FY2003
budget request, DOE declared that it was eliminating the immobilization part of the two-
track program for U.S. plutonium and that most of the plutonium originally destined for
immobilization would instead be consumed as MOX fuel. Despite the agreement, several
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difficult issues remain in the program to dispose of Soviet plutonium. (For details on the
Russian program, see CRS Issue Brief IB10091, Nuclear Nonproliferation Issues.)
As part of the U.S. program, construction of a plant to convert plutonium into MOX fuel
was planned for DOE’s Savannah River Site (SRS) in South Carolina. The plutonium is
currently stored in several DOE sites, including the former weapons component fabrication
facility at Rocky Flats in Colorado. DOE has agreed with Colorado authorities to close the
Rocky Flats facility by 2006, and as part of the process of cleaning up the site has proposed
starting to ship the plutonium located there to a temporary storage facility at SRS. However,
South Carolina Governor Jim Hodges objected to bringing the plutonium to SRS without an
“ironclad” commitment for operating and funding the MOX facility, on the grounds that
without it there was a risk that the unprocessed plutonium would be stored indefinitely in
South Carolina.
The State of South Carolina went to federal court to block DOE’s shipments of
plutonium from Rocky Flats, but the suit was dismissed June 13, 2002. In the meantime,
legislation has been introduced to set a schedule for the MOX plant construction and
operation, including penalties of up to $100 million per year to be paid the state by DOE if
the schedule is not followed. The bills were introduced in the House May 2, 2002, by
Representative Graham (H.R. 4648) and in the Senate by Senators Thurmond and Allard (S.
2453). The provisions of the bill were included in the Senate version of the FY2003 Defense
Authorization bill (Section 3182 of H.R. 4546 as passed by the Senate), but not in the House
version. The bill is currently in conference.
Federal Funding for Nuclear Energy Programs
The following tables summarize current funding for DOE nuclear fission programs and
uranium activities, and for the NRC. The sources for the funding figures are Administration
budget requests and committee reports on the Energy and Water Development
Appropriations Acts, which fund all the nuclear programs. President Bush submitted his
FY2003 funding request to Congress February 4, 2002. The House Appropriations
Committee marked up its FY2003 funding bill September 5, 2002. The Senate
Appropriations Committee marked up its FY2003 Energy and Water Development
appropriations bill July 24, 2002 (S. 2784, S. Rept. 107-220).
Table 1. Funding for the Nuclear Regulatory Commission
(budget authority* in millions of current dollars)
FY2001
FY2002
FY2003
FY2003
FY2003
Approp.
Approp.
Request
House
Senate
comm.
comm.
Nuclear Regulatory Commission
Reactor Safety
227.6
265.5
286.0
–**
--
Nuclear Materials Safety
53.1
63.4
64.2
--
--
Nuclear Waste Safety
64.1
71.6
71.9
--
--
International Nuclear Safety
5.1
5.3
5.4
--
--
Management and Support
149.7
166.2
171.0
--
--
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FY2001
FY2002
FY2003
FY2003
FY2003
Approp.
Approp.
Request
House
Senate
comm.
comm.
Inspector General
5.8
6.2
6.8
6.8
6.8
(Nuclear Plant Security)
(36.0*)
(29.3)
--
--
TOTAL NRC BUDGET
505.5
559.1
585.0
585.0
585.0
AUTHORITY
Offsetting fees
453.2
479.4
498.9
526.5
526.5
Net appropriation
52.3
79.8
86.0
58.5
58.5
* Additional $36 million for nuclear plant security provided by FY2002 supplemental appropriations
included in FY2002 Defense Appropriations Bill (H.R. 3338), approved by Congress December 20,
2001. The FY2002 supplemental security funding is not to be offset by fees. The security funding
is included in the other NRC programs, so it should not be added to the NRC total as a
separate funding category. Subcategories do not add because they include an Administration
proposal for full agency funding of federal retiree costs that was subsequently withdrawn.
** Subcategories not specified.
Table 2. DOE Funding for Nuclear Activities
(budget authority in millions of current dollars)
FY2001
FY2002
FY2003
FY2003
FY2003
Approp.
Approp. Request
House
Senate
comm.
comm.
Nuclear Energy (selected programs)
Program Direction
22.0
23.0
23.4
23.4
23.4
University Reactor Assistance
12.0
17.5
17.5
17.5
19.5
Nuclear Energy Plant Optimization
5.0
7.0
0
5.0
5.0
Nuclear Energy Research Initiative
35.0
32.0
25.0
25.0
29.0
Nuclear Energy Technologies
7.5
12.0
46.5
41.5
48.5
Spent Fuel Processing


18.2
18.2
77.9
International Nuclear Safety*
20.5
21.1
14.6
11.6
14.6
Total, Nuclear Energy
259.9
250.5
249.8
213.7
324.1
Uranium Facilities Maintenance and
422.5
418.4
382.2
382.2
471.2
Remediation
Nuclear Waste Activities
Defense Environmental Management
6,122.2
6,489.2
6,593.8
6,893.4
6,690.3
Non-defense Environmental Manag.
288.8
236.4
166.0
213.3
176.0
Nuclear Waste Fund Activities**
390.4
375.0
524.7
524.7
336.0
* Funded under “Defense Nuclear Nonproliferation.”
** Funded by a 1-mill-per-kilowatt-hour fee on nuclear power, plus appropriations for defense waste
disposal.
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LEGISLATION
H.R. 4 (Tauzin)
Securing America’s Future Energy Act of 2001. Comprehensive energy bill that
includes several nuclear energy provisions. Introduced July 27, 2001; referred to multiple
committees. Passed House August 2, 2001, by vote of 240-189. Passed Senate April 25,
2002, with text of S. 517 as amended. Conference began June 27, 2002.
H.R. 2983 (Wilson)
Price-Anderson Reauthorization Act of 2001. Extends Price-Anderson Act nuclear
accident liability system for 15 years and increases liability limits. Allows nuclear power
plants consisting of multiple small units to be counted as a single reactor in assessing
accident liability. Authorizes the federal government to recover at least some of any
damages it was forced to pay on behalf of indemnified Department of Energy (DOE) nuclear
contractors for accidents caused by intentional management misconduct. Requires NRC to
issue new security regulations for nuclear power plants and the transportation of nuclear
materials. Introduced October 2, 2001; referred to Committee on Energy and Commerce.
Ordered reported by Committee October 31, 2001; approved by House November 27, 2001.
H.R. 3279 (Markey)
Requires NRC to ensure sufficient stockpiles of potassium iodide tablets for use after
a nuclear accident. Introduced November 13, 2001; referred to Committee on Energy and
Commerce.
H.R. 3382 (Markey)/S. 1746 (Reid)
Requires NRC to take over operation of nuclear power plant security forces and to
ensure sufficient stockpiles of potassium iodide tablets for use after a nuclear accident.
Introduced November 29, 2001. House bill referred to Committee on Energy and
Commerce; Senate bill referred to Committee on Environment and Public Works. Substitute
for Senate bill approved by Committee July 25, 2002.
H.R. 4648 (Graham)
Sets timetable for construction of MOX fuel facility to dispose of weapons-usable
plutonium at the Savannah River Site, South Carolina. Introduced May 2, 2002; referred to
Subcommittee on Energy and Air Quality, Committee on Energy and Commerce.
S. 472 (Domenici)/H.R. 1679 (Graham)
Nuclear Energy Electricity Supply Assurance Act of 2001. Authorizes nuclear energy
research and development programs, provides incentives for increasing capacity at existing
nuclear power plants, modifies nuclear licensing requirements, and extends the Price-
Anderson Act nuclear liability system. Senate bill introduced March 7, 2001; referred to
Energy and Natural Resources Committee. House bill introduced May 2, 2001; referred to
Committees on Energy and Commerce and Science.
S. 4648 (Thurmond/Allard)
Sets timetable for construction of MOX fuel facility to dispose of weapons-usable
plutonium at the Savannah River Site, South Carolina. Introduced May 2, 2002; referred to
Committee on Energy and Natural Resources.
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