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United States Government Accountability Office: 
GAO: 

Report to Congressional Requesters: 

March 2011: 

DOE Nuclear Waste: 

Better Information Needed on Waste Storage at DOE Sites as a Result of 
Yucca Mountain Shutdown: 

GAO-11-230: 

GAO Highlights: 

Highlights of GAO-11-230, a report to congressional requesters. 

Why GAO Did This Study: 

The Department of Energy’s (DOE) Office of Environmental Management 
(EM) is responsible for storing and managing a total of about 13,000 
metric tons of nuclear waste—spent nuclear fuel and high-level waste—
at five DOE sites in Colorado, Idaho, New York, South Carolina, and 
Washington. Also, a joint DOE-Navy program stores spent nuclear fuel 
from warships at DOE’s Idaho site. DOE and the Navy intended to 
permanently dispose of this nuclear waste at a repository planned for 
Yucca Mountain in Nevada. However, that plan is now in question 
because of actions taken to terminate the site. This report assesses 
(1) agreements DOE and the Navy have with states at the five sites and 
the effects a termination of the Yucca Mountain repository would have 
on their ability to fulfill these agreements; (2) the effects a 
termination would have on DOE’s and the Navy’s operations and costs 
for storing the waste; and (3) DOE’s and the Navy’s plans to mitigate 
these potential effects. GAO reviewed state agreements and DOE plans, 
visited waste facilities, and interviewed federal and state officials. 

What GAO Found: 

Five states have agreements with DOE, and in one case with the Navy, 
regarding the storage, treatment, or disposal of nuclear waste stored 
at DOE sites. Only agreements with Colorado and Idaho include 
deadlines, or milestones, for removing waste from sites that may be 
threatened by a termination of the Yucca Mountain repository program. 
Under the agreements, DOE and the Navy are expected to remove their 
spent nuclear fuel from Idaho, and DOE is to remove its fuel from 
Colorado, by January 1, 2035. If a repository is not available to 
accept the waste, however, DOE and the Navy could miss these 
milestones. As a result, the government could face significant 
penalties—$60,000 for each day the waste remains in Idaho and $15,000 
for each day the waste remains in Colorado—after January 1, 2035. 
These penalties could total about $27.4 million annually. Navy 
officials told GAO, however, their greater concern is that Idaho might 
suspend Navy shipments of spent nuclear fuel to the state until the 
Navy meets its agreement to remove spent nuclear fuel, a suspension 
that would interfere with the Navy’s ability to refuel its nuclear 
warships. 

Terminating the Yucca Mountain repository would not affect DOE’s or 
the Navy’s nuclear waste operations on DOE sites in the near term, 
according to DOE and Navy officials. But it would likely extend on-
site storage and increase storage costs, which could be substantial. 
For example, an EM analysis estimates that EM could need an additional 
$918 million to extend storage, assuming a 20-year delay in a repository
’s opening. Since it is not known when an alternative to Yucca 
Mountain will be available, it is difficult to estimate the total 
additional storage costs stemming from terminating the repository. 
Although EM officials told GAO that DOE can extend storage of nuclear 
waste on DOE sites for some time, additional information is needed to 
plan for longer storage. For instance, DOE does not know how long the 
lives of existing storage facilities can be extended beyond estimates 
in current site plans. In addition, although research is being planned 
for long-term storage of commercial spent nuclear fuel beyond 120 
years, DOE has no plan for comparable research focusing on its unique 
long-term waste storage needs. 

DOE and the Navy have not yet developed plans to mitigate the 
potential effects of longer storage resulting from a termination of 
the Yucca Mountain repository. EM and Navy officials said they are 
waiting for recommendations from a Blue Ribbon Commission that DOE 
created in 2010 to clarify future nuclear waste management 
alternatives. Even after the commission’s recommendations are 
available, however, DOE could face difficulties in planning how to 
mitigate the impact of a termination of the repository. For example, 
because it is not clear how specific the commission’s recommendations 
will be, it may take time to develop the recommendations into a new 
nuclear waste management policy. Further, some recommendations may not 
lead to a solution soon enough to meet existing waste removal 
milestones. DOE and the Navy said it was too early to change existing 
plans since no final disposition path for the waste has been 
determined. 

What GAO Recommends: 

GAO recommends that DOE (1) assess existing nuclear waste storage 
facilities and the resources and information needed to extend their 
useful lifetimes and (2) identify any additional research needed to 
address DOE’s unique needs for long-term waste storage. DOE agreed 
with the recommendations, but objected to some of GAO’s findings, 
which GAO continues to believe are sound. 

View [hyperlink, http://www.gao.gov/products/GAO-11-230] or key 
components. For more information, contact Gene Aloise at (202) 512-
3841 or aloisee@gao.gov. 

[End of section] 

Contents: 

Letter: 

Background: 

Termination of the Yucca Mountain Repository Could Threaten DOE's and 
the Navy's Ability to Fulfill Agreements with Colorado and Idaho: 

Termination of the Yucca Mountain Repository Would Not Affect Near-
Term Operations at DOE Sites but Would Likely Extend On-Site Storage 
of Nuclear Waste: 

DOE and the Navy Have Not Developed Plans to Mitigate the Impact of 
Termination of the Yucca Mountain Repository on Nuclear Waste Storage: 

Conclusions: 

Recommendations for Executive Action: 

Agency Comments and Our Evaluation: 

Appendix I: Status of DOE's Preparation of Spent Nuclear Fuel and High-
Level Waste for Disposal: 

Appendix II: Comments from the Department of Energy: 

Appendix III: GAO Contact and Staff Acknowledgments: 

Tables: 

Table 1: Details of State Agreements Regarding Nuclear Waste at the 
Five DOE Sites: 

Figures: 

Figure 1: Examples of Nuclear Waste Storage Systems at DOE Sites: 

Figure 2: A Transporter Lifting a High-Level Waste Canister over the 
Concrete Storage Vault: 

Figure 3: 2010 Inventories of Spent Nuclear Fuel and High-Level Waste 
at DOE's Sites: 

Abbreviations: 

CERCLA: Comprehensive Environmental Responsibility, Compensation, and 
Liability Act: 

DOE: Department of Energy: 

EM: Office of Environmental Management: 

EPA: Environmental Protection Agency: 

NRC: Nuclear Regulatory Commission: 

RCRA: Resource Conservation and Recovery Act of 1976: 

[End of section] 

United States Government Accountability Office: 
Washington, DC 20548: 

March 23, 2011: 

The Honorable Jason Chaffetz:
Chairman:
The Honorable John F. Tierney:
Ranking Member:
Subcommittee on National Security, Homeland Defense and Foreign 
Operations:
Committee on Oversight and Government Reform:
House of Representatives: 

The Honorable Jeff Flake:
House of Representatives: 

After decades of nuclear weapons production, the nation now faces the 
complex task of storing and eventually disposing of two types of 
highly radioactive waste.[Footnote 1] The first type, called "spent 
nuclear fuel," is the fuel that has been used and then removed from 
nuclear reactors operated for weapons production. The Department of 
Energy (DOE) is responsible for managing the spent nuclear fuel 
primarily from weapons-related activities and other defense-related 
activities but also from certain nondefense activities. The second 
type of nuclear waste is "high-level waste," a by-product of weapons 
production and other defense-related activities--much of it currently 
stored in liquid or semiliquid form in large underground tanks. DOE's 
Office of Environmental Management (EM) is responsible for storing and 
managing a total of almost 13,000 metric tons[Footnote 2] of nuclear 
waste at five sites: the Hanford Site in Washington state, the 
Savannah River Site in South Carolina, Idaho National Laboratory in 
Idaho, the Fort St. Vrain Site in Colorado, and the West Valley Site 
in New York. 

DOE has agreements with these states governing how the nuclear waste 
is managed. These agreements can include various dates by which DOE 
agrees to complete certain activities, such as processing high-level 
waste, transferring spent nuclear fuel and high-level waste to safer 
storage, and removing nuclear waste from the site. Some of these 
agreements include penalties if these dates, known as milestones, are 
not met. The Navy is also a party to agreements with Idaho, where it 
stores spent nuclear fuel from submarines and aircraft carriers at 
DOE's Idaho site.[Footnote 3] 

For decades, DOE has planned to permanently dispose of these nuclear 
wastes--some components of which remain dangerously radioactive for 
thousands of years--in a deep geological repository at Yucca Mountain 
in southwestern Nevada, but that plan is now in question. As amended 
in 1987, the Nuclear Waste Policy Act of 1982 directs DOE to study 
Yucca Mountain as the site for a repository to store both DOE's 
nuclear waste and spent nuclear fuel from commercial nuclear reactors. 
[Footnote 4] The act, as amended, also identifies the Nuclear 
Regulatory Commission (NRC) as responsible for licensing the 
development, construction, and operation of a repository at Yucca 
Mountain. In June 2008, after spending more than $14 billion since 
1983 to study potential repository sites and to develop the technical 
documents for a license, DOE submitted an application to the NRC 
seeking authorization to construct a repository at the Yucca Mountain 
site. DOE planned to open the repository in 2020. 

In a budget submission to Congress in 2009, however, the 
administration stated its decision to terminate the Yucca Mountain 
program and proposed eliminating funding for the development of the 
Yucca Mountain repository. In March 2010, DOE filed a motion with 
NRC's Atomic Safety and Licensing Board--which is responsible for 
hearing legal and technical challenges to DOE's license application--
to withdraw its application with prejudice. DOE stated it was seeking 
"this form of dismissal because it does not intend ever to refile an 
application to construct a permanent geological repository for spent 
fuel and high-level radioactive waste at Yucca Mountain" and it "will 
provide finality in ending the Yucca Mountain project." In June 2010, 
NRC's Atomic Safety and Licensing Board denied DOE's withdrawal 
motion, concluding that DOE lacks the authority under the Nuclear 
Waste Policy Act, as amended, to withdraw the license application. The 
ultimate outcome of DOE's plan to terminate the Yucca Mountain program 
remains unsettled. First, the commissioners who head the NRC can 
choose whether to review the board's decision to deny DOE's motion and 
can either uphold or reverse the board's decision. In addition, two 
states, a county, and private citizens sued DOE and NRC in federal 
court, arguing that DOE had no authority to terminate the proposed 
Yucca Mountain repository. As of mid-March 2011, the consolidated 
lawsuit for these parties has not been settled or decided. 

To develop waste disposal alternatives, the administration directed 
DOE to establish the Blue Ribbon Commission on America's Nuclear 
Future. The commission, which was formed in January 2010, is to 
conduct a comprehensive review of policies and provide advice, 
evaluate alternatives, and make recommendations for managing the 
storage, processing, and disposal of spent nuclear fuel and high-level 
waste, among other things. Its final report is expected by January 29, 
2012. For now, the decision to forgo Yucca Mountain leaves DOE without 
a pathway to permanently dispose of spent nuclear fuel and high-level 
waste. In the absence of a repository at Yucca Mountain, some affected 
states and communities are concerned that DOE may store waste at its 
sites indefinitely. 

In this context, you asked us to assess the effect of a possible 
termination of the Yucca Mountain repository on nuclear waste stored 
at DOE sites. For this report, our objectives were to assess (1) 
agreements DOE and the Navy have with states concerning spent nuclear 
fuel and high-level waste at five DOE sites and the effects, if any, a 
termination of the Yucca Mountain repository would have on DOE's and 
the Navy's ability to fulfill these agreements; (2) the effects, if 
any, a termination of the Yucca Mountain repository would have on 
DOE's and the Navy's operations and costs for storing spent nuclear 
fuel and high-level waste; and (3) DOE's and the Navy's plans to 
mitigate these potential effects. 

To address the first objective, we reviewed the statutory and 
regulatory frameworks, including agreements between DOE and states, 
regarding spent nuclear fuel and high-level waste at DOE sites. To 
address the second objective, we reviewed documents, including waste 
treatment plans, program missions, EM's 5-year plan for fiscal years 
2008 to 2012, DOE annual budget justifications, public statements of 
DOE and EM officials, recommendations of EM's citizen advisory boards, 
and DOE, Congressional Research Service, and GAO reports. We also 
analyzed EM's contingency planning for the costs that would arise from 
a hypothetical delayed opening of the Yucca Mountain repository in 
2040 rather than 2020 and EM's cost modeling for extending on-site 
storage for up to 500 years, the latter of which was prepared at our 
request for a prior report.[Footnote 5] To view storage and treatment 
facilities, we visited the three DOE sites--the Hanford Site, the 
Savannah River Site, and Idaho National Laboratory--that store most of 
the DOE-managed spent nuclear fuel and high-level waste. To address 
the third objective regarding EM's and the Navy's mitigation plans and 
other possible options, we examined presentation slides, statements, 
and transcripts for the Blue Ribbon Commission meetings and 
congressional hearings and other pertinent documents. To get 
additional information on our research objectives, we conducted 
interviews with DOE and contractor officials representing the five DOE 
sites, EM headquarters, EM's Office of Environmental Compliance, and 
DOE's Office of General Counsel. We attended EM conferences on 
managing nuclear materials in March and September 2010. We also 
interviewed officials from the Naval Nuclear Propulsion Program and 
its counsel and officials with the Defense Nuclear Facilities Safety 
Board, Nuclear Waste Technical Review Board, Environmental Protection 
Agency, Nuclear Regulatory Commission, and state agencies in Colorado, 
Idaho, New York, South Carolina, and Washington. We limited our review 
of the Department of Defense to only the Navy because Defense and Navy 
officials told us that the Navy was the only organization in the 
department with responsibilities for disposal of nuclear materials 
destined for the Yucca Mountain repository. 

We conducted this performance audit from January 2010 to March 2011 in 
accordance with generally accepted government auditing standards. 
Those standards require that we plan and perform the audit to obtain 
sufficient, appropriate evidence to provide a reasonable basis for our 
findings and conclusions based on our audit objectives. We believe 
that the evidence obtained provides a reasonable basis for our 
findings and conclusions based on our audit objectives. 

Background: 

From 1944 until the 1980s, the United States used nuclear reactors to 
produce plutonium and other materials for nuclear weapons. Plutonium 
was extracted from the fuels used by these reactors by a chemical 
process known as reprocessing.[Footnote 6] As a result of these 
activities, after the shutdown of weapons production and of some 
reprocessing plants at the end of the Cold War, DOE retained an 
inventory of spent nuclear fuel that had not been reprocessed, as well 
as high-level waste--which is one of the byproducts of reprocessing. 
Weapons production and related defense activities--such as the 
reprocessing of the Navy's spent nuclear fuel to produce new fuel, 
which also created high-level waste--are the source of about 87 
percent of DOE's inventory of spent nuclear fuel and almost its entire 
inventory of high-level waste. Because weapons production and 
reprocessing of the Navy's spent nuclear fuel have ended, DOE's 
inventories of this waste are largely fixed. 

DOE is also responsible for managing other nuclear waste from a 
variety of sources, including some active programs that continue to 
add to DOE's inventory. For example, DOE is responsible for managing 
spent nuclear fuel from the Navy through the Naval Nuclear Propulsion 
Program, which is jointly operated by DOE and the Navy. The Navy uses 
nuclear-powered ships and submarines in carrying out its missions. The 
spent nuclear fuel removed from these vessels is the primary driver of 
increases in DOE's inventory, but it totals only 1 percent of DOE's 
spent nuclear fuel inventory. The remainder of DOE's inventory of 
nuclear waste comes from various nondefense sources, including spent 
nuclear fuel from its own test and experimental reactors, reactors at 
U.S. universities, and other government research reactors; commercial 
reactor fuel acquired by DOE for research and development; and fuel 
from foreign research reactors. For example, DOE stores fuel debris 
from the Three Mile Island accident that occurred in 1979 at a 
commercial nuclear power plant. It also stores spent nuclear fuel from 
three commercial power demonstration projects, including from the 
first commercial-scale high-temperature gas-cooled reactor plant in 
the United States, at the Fort St. Vrain site. In addition, the United 
States operates a program to take custody of spent nuclear fuel from 
foreign research reactors, which supports a U.S. policy to prevent the 
proliferation of nuclear weapons; this program is scheduled for 
completion in 2019. 

DOE currently stores its inventories of nuclear waste at five DOE 
sites. In 1995, DOE decided to consolidate nearly all of its spent 
nuclear fuel from other sites at three primary locations--the Hanford 
Site, Idaho National Laboratory, and the Savannah River Site--for 
storage and preparation for permanent disposal. The exception to this 
consolidation decision is DOE's Fort St. Vrain site, which stores less 
than 1 percent of DOE's total inventory. In 1999, DOE decided to store 
its high-level waste where it was generated, at the same three primary 
sites. In addition, DOE manages a small amount of high-level waste 
that resulted from the relatively brief operation of the only 
commercial reprocessing plant ever run in the United States. This 
waste was generated between 1966 and 1972 from reprocessing spent 
nuclear fuel at a site near West Valley, New York, where DOE is now 
responsible for storing it.[Footnote 7] 

Some of the nuclear waste at these sites requires further processing 
and packaging before it can be safely stored over the long term or 
removed for final disposal. In the case of spent nuclear fuel, this 
generally means removing it from storage pools of water and packaging 
it in stainless steel canisters. The processing and packaging of high- 
level waste is vastly more complicated--a massive enterprise in which 
DOE is removing waste from storage tanks and transferring it to 
treatment facilities. For example, at the Savannah River Site, DOE is 
vitrifying high-level waste by mixing it with a glass-forming 
material, melting the mixture into glass, and pouring it into 
stainless-steel canisters to harden. Across all sites, DOE expects to 
eventually produce about 20,000 canisters of solidified high-level 
waste. Once the wastes are stabilized, removing them from the sites 
would require a destination where they could be stored or permanently 
disposed of and a decades-long shipping campaign to get them there. 
Appendix I describes how the sites are in different stages of 
preparing spent nuclear fuel and high-level waste for final disposal. 

In the meantime, DOE manages many types of storage facilities, as 
illustrated in figure 1, of widely varying ages and conditions. For 
example, DOE has generally been moving spent nuclear fuel from wet 
storage in pools of water, designed to cool the fuel and provide 
radiation protection, to dry storage. Dry storage has numerous 
configurations, including underground storage vaults, only some of 
which are covered by a building, and casks on an outdoor pad or a 
railroad car. Overall, these storage facilities vary from aging to 
almost new; for instance, they range from a 1950s building at the 
Idaho National Laboratory to a high-level waste canister building 
constructed in 2005 at the Savannah River Site. 

Figure 1: Examples of Nuclear Waste Storage Systems at DOE Sites: 

[Refer to PDF for image: 4 photographs] 

Spent nuclear fuel being moved in a wet storage pool at the Savannah 
River Site. 

Source: DOE. 

Spent nuclear fuel canisters stored in undersurface tubes in a storage 
building at the Hanford Site. 

Source: DOE. 

High-level waste canisters in a shielded room at the West Valley Site 
(viewed through protective glass). 

Source: West Valley Demonstration Project. 

Navy’s spent nuclear fuel canisters surrounded by protective concrete 
overpacks in a storage building at DOE's Idaho site. 

Source: Naval Nuclear Propulsion Program. 

[End of figure] 

DOE operates these five sites under a legal framework that includes 
self-regulation, as well as regulation by federal agencies and states. 
In contrast to the commercial nuclear industry's sites, which are 
regulated by NRC, DOE generally operates under its own regulations for 
nuclear safety at its sites.[Footnote 8] In addition, DOE's treatment, 
storage, and disposal of radioactive and hazardous wastes are governed 
by a number of federal and state laws, including the Resource 
Conservation and Recovery Act of 1976 (RCRA), as amended, which 
regulates the management of hazardous waste from generation to 
disposal. The Federal Facility Compliance Act of 1992 amended RCRA to 
require federal agencies, including DOE, to develop waste treatment 
plans for their sites that contain mixed wastes--certain wastes with 
both radioactive and chemically hazardous materials. For example, high-
level waste is sometimes considered a mixed waste because it contains 
highly corrosive, organic, or heavy metal components that may be 
regulated under RCRA. These plans are approved by states that the 
Environmental Protection Agency (EPA) has authorized to administer 
RCRA or by EPA in states that have not been so authorized. 

Activities carried out under these plans are often governed by 
compliance agreements between DOE, EPA, and the states (state 
agreements), which regulate and oversee the activities. State 
agreements establish the scope of work to be performed at given sites, 
as well as "milestones"--specific dates by which these activities 
should be achieved. The agreements may also impose monetary or other 
penalties for missing milestones. Milestones may cover actions to 
treat, store, and dispose of hazardous wastes located at the DOE 
sites. Agreements differ by state. Some cover virtually all cleanup 
activities at a site, while others cover just a portion. These 
activities may include soil and groundwater remediation, low-level 
radioactive waste disposition, and special nuclear material 
consolidation; in this report, we focus on state agreement cleanup 
activities involving spent nuclear fuel and high-level waste. States 
and DOE can negotiate to amend or modify the agreements, including 
extending or eliminating milestones. 

State agreements may be created in at least four ways. First, states 
may enter into Federal Facilities Agreements (also known as Tri-Party 
Agreements) with DOE and EPA, which implement the Comprehensive 
Environmental Responsibility, Compensation, and Liability Act of 1980 
(CERCLA) and RCRA, as well as state hazardous waste law requirements 
to set the cleanup schedules at sites. CERCLA, among other things, 
authorizes EPA to compel responsible parties to initiate cleanup 
activities at hazardous waste sites. Second, states may take legal 
action against DOE seeking review of its compliance with the National 
Environmental Policy Act, which can result in settlement agreements 
between the parties and may outline activities and milestones. Third, 
Congress may address the management of wastes at a specific site. 
Finally, federal government officials may enter into agreements with 
states concerning DOE-managed radioactive waste, which may include 
specific cleanup milestones. 

Termination of the Yucca Mountain Repository Could Threaten DOE's and 
the Navy's Ability to Fulfill Agreements with Colorado and Idaho: 

The five states with DOE sites storing nuclear waste have agreements 
with DOE, and in one case with the Navy, regarding how nuclear waste 
will be managed. However, only the agreements with Colorado and Idaho 
would be affected by a termination of the Yucca Mountain repository 
because only those agreements specify dates for removing the waste 
from the DOE sites. 

All Five States Have Agreements Regarding the Management of Nuclear 
Waste at DOE Sites: 

Each DOE site falls under at least one state agreement that specifies 
certain treatment, storage, or disposal activities for high-level 
waste, spent nuclear fuel, or both. The agreements with four sites 
deal with the safe storage and treatment of high-level waste. (DOE's 
site in Colorado, does not store any high-level waste; it stores only 
spent nuclear fuel.) In addition, state agreements for some DOE sites 
focus on the storage of spent nuclear fuel or its removal from the 
states. Major state agreements at each site are as follows: 

* Idaho National Laboratory. DOE and the Navy are party to a 1995 
settlement agreement and consent decree (the Idaho Settlement 
Agreement), entered into the United States District Court for the 
District of Idaho, to settle a lawsuit brought by the state. The 
agreement commits DOE to prepare its high-level waste for shipment out 
of Idaho for disposal. The agreement also contains provisions for 
managing spent nuclear fuel. Specifically, it requires DOE and the 
Navy to move their spent nuclear fuel from storage in pools of water 
to dry storage--given state concerns that the water pools might leak 
and radioactively contaminate the underlying groundwater--and later to 
move the spent nuclear fuel out of Idaho. 

* Fort St. Vrain Site. In 1996 the Governor of Colorado signed an 
agreement with the Assistant Secretary for Environmental Management at 
DOE, referred to as the "Agreement Between the Department of Energy 
and the State of Colorado Regarding Shipping Spent Fuel Out of 
Colorado." The agreement states that DOE is committed to shipping its 
spent nuclear fuel stored at Fort St. Vrain out of Colorado. 

* Hanford Site. The Hanford Federal Facility Agreement and Consent 
Order (Tri-Party Agreement) of 1989, as amended, entered into by DOE, 
EPA, and the state of Washington's Department of Ecology, focuses on 
completing DOE's closure of tanks that store liquid waste and 
solidifying its high-level waste for safer storage. The agreement also 
requires DOE to develop a disposition plan for cesium and strontium 
capsules, which are managed as high-level waste, if vitrification is 
not planned.[Footnote 9] 

* Savannah River Site. The 1993 Federal Facility Agreement for the 
Savannah River Site and the Savannah River Site Treatment Plan of 1995 
between DOE and the South Carolina Department of Health and 
Environmental Control focus on completing DOE's closure of tanks that 
store liquid waste and solidifying its high-level waste for safer 
storage. 

* West Valley Site. The West Valley Demonstration Project Act, enacted 
in 1980, directs the Secretary of Energy to enter into a cooperative 
agreement with New York and to carry out a radioactive waste 
management demonstration project at the western New York Service 
Center in West Valley, New York. The project includes solidifying high-
level waste, developing waste containers suitable for permanent 
disposal, and transporting the solidified waste to an appropriate 
federal repository for permanent disposal. 

Agreements with Idaho and Colorado Have Milestones for Waste Removal 
That Could Be Affected by Terminating the Yucca Mountain Repository: 

A termination of the Yucca Mountain repository may prevent DOE and the 
Navy from meeting agreements with Colorado and Idaho that establish 
milestones for shipping the spent nuclear fuel out the states. As 
shown in table 1, the other agreements do not set dates for removing 
spent nuclear fuel from DOE sites. No state agreement sets a date for 
removing high-level waste. 

Table 1: Details of State Agreements Regarding Nuclear Waste at the 
Five DOE Sites: 

DOE sites: Idaho site: Idaho National Laboratory; 
High-level waste: Stored at site: Yes; 
High-level waste: Milestones for removal: No[A]; 
Spent nuclear fuel: Stored at site: Yes; 
Spent nuclear fuel: Milestones for removal: Jan. 1, 2035. 

DOE sites: Idaho site: Navy; 
High-level waste: Stored at site: No; 
High-level waste: Milestones for removal: Not applicable; 
Spent nuclear fuel: Stored at site: Yes; 
Spent nuclear fuel: Milestones for removal: Jan. 1, 2035. 

DOE sites: Fort St. Vrain in Colorado; 
High-level waste: Stored at site: No; 
High-level waste: Milestones for removal: Not applicable; 
Spent nuclear fuel: Stored at site: Yes; 
Spent nuclear fuel: Milestones for removal: Jan. 1, 2035. 

DOE sites: Hanford Site in Washington; 
High-level waste: Stored at site: Yes; 
High-level waste: Milestones for removal: No; 
Spent nuclear fuel: Stored at site: Yes; 
Spent nuclear fuel: Milestones for removal: No. 

DOE sites: Savannah River Site in South Carolina; 
High-level waste: Stored at site: Yes; 
High-level waste: Milestones for removal: No; 
Spent nuclear fuel: Stored at site: Yes; 
Spent nuclear fuel: Milestones for removal: No. 

DOE sites: West Valley Site in New York; 
High-level waste: Stored at site: Yes; 
High-level waste: Milestones for removal: No[B]; 
Spent nuclear fuel: Stored at site: No[C]; 
Spent nuclear fuel: Milestones for removal: Not applicable. 

Source: GAO analysis of state agreements. 

[A] In the Idaho Settlement Agreement, DOE committed to a target date 
to have high-level waste prepared for shipment out of Idaho by 2035, 
but not to a milestone date for removal. 

[B] The West Valley Demonstration Project Act commits DOE to "as soon 
as feasible, transport, in accordance with applicable provisions of 
law," the solidified high-level waste to a federal repository, but 
does not specify a milestone date for removal. 

[C] A DOE official told us that DOE took title to some spent nuclear 
fuel from West Valley after the demonstration project began and 
shipped it to the Idaho National Laboratory for storage. Earlier 
during the commercial reprocessing efforts, a small amount of other 
spent nuclear fuel was disposed of in the NRC-Licensed Disposal Area 
at the site. The official said no decision has been made regarding 
removal and disposal of this material at a geological repository. 

[End of table] 

DOE and the Navy, under the 1995 Idaho Settlement Agreement, are 
required to remove from the state by January 1, 2035, spent nuclear 
fuel stored at Idaho National Laboratory. In addition, DOE's head of 
EM signed an agreement to remove the spent nuclear fuel stored at the 
Fort St. Vrain site from Colorado by the same date.[Footnote 10] When 
the agreements were signed, DOE had intended to remove the spent 
nuclear fuel from these sites and ship it to the Yucca Mountain 
repository for final disposition.[Footnote 11] Similarly, the Navy had 
planned to transport its spent nuclear fuel from Idaho to the Yucca 
Mountain repository starting after 2020. If the Yucca Mountain 
repository is terminated, DOE and the Navy would lose their planned 
shipping destination for their spent nuclear fuel, which could cause 
them to miss the 2035 removal date they have committed to. 

DOE and the Navy may be faced with significant penalties for missing 
these removal milestones. For example, under the Idaho Settlement 
Agreement, the federal government may be liable to pay the state 
$60,000 for each day past January 1, 2035, that DOE and the Navy have 
not removed their spent nuclear fuel from the state. Under the 
Colorado state agreement, DOE may be liable to pay the state $15,000 
for each day after January 1, 2035, that DOE fails to remove its spent 
nuclear fuel. These penalties would total approximately $27.4 million 
per year, although both state agreements stipulate that any possible 
future payments of these penalties will be subject to the availability 
of appropriations specifically for that purpose. 

Under the Idaho Settlement Agreement, the state may also have the 
ability to suspend any further DOE or Navy shipments of spent nuclear 
fuel to DOE's Idaho site until the agreement's obligation for removal 
of spent nuclear fuel is met. According to Navy officials, this would 
be of much greater concern than the financial penalties. After 
removing spent nuclear fuel from its warships as part of the refueling 
process, the Navy transports it to the Idaho site for examination and 
storage. No other sites are available for these critical activities. A 
Navy official told us that developing the infrastructure for these 
activities at a new site outside of Idaho would be time consuming and 
costly, and other states might oppose such a facility within their 
boundaries if there were no disposal pathway for the spent nuclear 
fuel. If Idaho were to suspend the Navy's shipments of spent nuclear 
fuel, the Navy would not be able to refuel its nuclear warships, which 
Navy officials said would raise national security concerns. In 
addition, suspension might effectively prevent the Navy from 
continuing to examine its spent nuclear fuel at the Idaho site after 
2035.[Footnote 12] 

If DOE determines that it will not be able to meet the removal 
milestones in the Idaho and Colorado agreements, it is unclear when 
the department would approach these states or whether either state 
would be amenable to renegotiating the agreement milestones. For 
example, Idaho officials said they still expect DOE and the Navy to 
meet the milestones. They stated that the 25 years remaining to remove 
spent nuclear fuel from Idaho may not be enough time to establish an 
alternative repository, but they noted that the Idaho Settlement 
Agreement does not require the spent nuclear fuel to be sent to the 
Yucca Mountain repository, only that it be removed from Idaho. These 
officials also said Idaho might seek remedies in court if it becomes 
evident that DOE is not positioned to meet a future milestone. 

Termination of the Yucca Mountain Repository Would Not Affect Near-
Term Operations at DOE Sites but Would Likely Extend On-Site Storage 
of Nuclear Waste: 

According to DOE and Navy officials, a termination of the Yucca 
Mountain repository would not generally affect their nuclear waste 
operations in the near term. However, it would likely extend on-site 
storage of nuclear waste, which would lead to increased storage costs 
for the federal government. In addition, DOE officials said they will 
need additional information on storage facilities to plan storage 
beyond the time set forth in the current site plans. 

Near-Term Operations at DOE Sites Generally Would Be Unaffected: 

According to EM officials, a termination of the Yucca Mountain 
repository is not expected to affect site operations in the near term 
because current DOE operations are primarily focused on treating high- 
level wastes and moving spent nuclear fuel from wet to dry storage-- 
activities that do not depend on having a repository available. 
Operations at the primary DOE sites we reviewed--Hanford, Idaho, and 
Savannah River--are currently focused on treating high-level 
radioactive liquid tank waste or moving spent nuclear fuel from wet to 
dry storage. These efforts are intended to immobilize high-level waste 
and provide safer storage on site until disposal at a repository. 
Savannah River is vitrifying the site's high-level waste by combining 
it with glass-forming chemicals to make a glass that is poured into 
stainless steel canisters and sealed by welding; Hanford is building a 
$12.3 billion complex to do the same. Savannah River and Hanford 
officials said they intend to continue these operations through 
completion, regardless of the status of the Yucca Mountain repository, 
because of EM's mission to mitigate environmental risk and because the 
officials are trying to meet milestones in their state agreements for 
removing high-level waste from tanks. Idaho National Laboratory has 
treated much of its high-level waste[Footnote 13] with a different 
process, called calcination, which turns the waste into a dry granular 
powder. In a 2009 record of decision, DOE decided to take additional 
steps to put the calcine waste into a monolithic form within canisters 
for permanent disposal, but according to EM officials, this work has 
not yet been started. Regarding spent nuclear fuel, Idaho is in the 
process of moving all of it from wet to dry storage, and Hanford has 
generally completed the process. According to EM officials, there are 
no plans at this time for the Savannah River Site to move spent 
nuclear fuel from wet to dry storage. 

Furthermore, at a 2010 hearing, the head of the Naval Nuclear 
Propulsion Program stated that termination of the Yucca Mountain 
repository would have no near-term effect on its operations at Idaho. 
The Navy intends to continue moving its spent nuclear fuel out of wet 
storage and placing it into canisters that are ready for transport 
when an alternative to the Yucca Mountain repository is available. In 
the meantime, the Navy will store the canisters at the Idaho site, as 
it anticipated doing while waiting for the Yucca Mountain repository 
to open. 

Some officials, such as those from the Washington State Department of 
Ecology, raised concerns that a termination of the Yucca Mountain 
repository could affect current operations if a replacement repository 
is selected with different requirements for accepting waste. Waste 
acceptance criteria govern aspects such as the waste canister's shape, 
size, and radioactive content. According to EM officials, however, 
continuing operations in accordance with the treatment and packaging 
requirements established for the Yucca Mountain repository license 
application likely does not raise any significant issues. They said 
that EM, in coordination with NRC and EPA, strives to develop waste 
forms and package designs that will likely be accepted at any geologic 
repository, and they expect that any new repository would be designed 
to safely hold the high-level waste and spent nuclear fuel that has 
already been packaged. 

While the sites can generally continue with their operations and plans 
without the opening of a repository, a termination of the Yucca 
Mountain repository may change some plans related to disposal. For 
example, if a repository is not available, sites can delay building 
shipping facilities, which would need to be in place about 5 years 
before a repository is available. 

Termination of the Yucca Mountain Repository Will Likely Extend On-
Site Storage and Increase Costs: 

Without a Yucca Mountain repository, DOE will likely have to extend 
storage of nuclear wastes at DOE sites, which will increase its 
storage costs--although it is difficult to predict by how much. 
According to a 2009 Congressional Research Service report, halting the 
development of the Yucca Mountain repository would almost certainly 
require that nuclear waste remain at on-site storage facilities longer 
than currently planned. This is because a new repository to replace 
the Yucca Mountain repository would be unlikely to open by 
2020.[Footnote 14] Similarly, senior EM officials told us they 
understand that high-level waste and spent nuclear fuel may remain at 
DOE sites for a "considerable" period of time. On-site storage can be 
safe and secure for long periods, according to a National Research 
Council report, but it would require a continuing commitment of 
resources for the storage to be continuously monitored, maintained, 
and periodically rebuilt.[Footnote 15] 

For our analysis, we used DOE's own estimate that the Yucca Mountain 
repository would be open in 2020. This 2008 estimate was made before 
DOE took steps to terminate the Yucca Mountain repository program. 
While we recognize the 2020 date was not certain, we know of no better 
assumption to meaningfully assess the impact of a termination of the 
Yucca Mountain repository. In a written comment to us, DOE officials 
stated that it is incorrect to conclude there will be a delay in 
moving the nuclear materials or disposing of them using an alternative 
strategy compared to pursuing the Yucca Mountain program. 
Specifically, they stated it is speculation to say a new strategy will 
take longer to implement than continuing with the Yucca Mountain 
program because there is no guarantee of when, if ever, the many 
significant steps for opening the Yucca Mountain repository would have 
occurred. Since the comment provides only a hypothetical bounding 
possibility--the Yucca Mountain repository might have never opened, 
even without DOE's current steps to terminate it--rather than a new 
estimate for when the repository might have opened, we note the DOE 
officials' position but do not analyze it further. 

Longer storage would increase costs at DOE sites because it would 
require additional years of storage beyond current plans, which 
assumed shipments to the Yucca Mountain repository starting in 2020. 
These storage costs generally fall into three categories:[Footnote 16] 

* Annual and recurring storage costs: Annual costs include costs for 
operations, maintenance, surveillance, and security for the storage 
facilities. Recurrent costs are generally maintenance or repair costs 
that are not annual, such as the anticipated cost of replacing a 
storage building's roof every 25 to 30 years. 

* Increased storage capacity: Beyond storage already available or 
planned, the Hanford Site, the Savannah River Site, and the Naval 
Reactor Facility at the Idaho site would have to build additional 
storage if their canister inventory cannot be reduced by sending 
canisters to the Yucca Mountain repository. This capacity can be 
expensive. For example, an EM analysis estimated that Hanford would 
need three additional storage facilities to accommodate all of the 
waste canisters. These facilities would be built as needed, at an 
estimated cost of $100 million (2010 dollars) each. 

* Replacement of storage facilities and containers. Existing storage 
systems must be replaced once they exceed their useful lives. DOE has 
not yet determined the design of these replacement storage systems, 
and these costs could be incurred well into the future. For example, 
in a 2002 analysis, DOE assumed that the storage facilities would 
undergo complete replacement after the first 100 years and every 100 
years thereafter. 

EM estimates that it could need an additional $918 million (2010 
dollars) to extend storage if the opening of a permanent repository 
were delayed from 2020 to 2040.[Footnote 17] About two-thirds of these 
costs would fall into the category of annual and recurring storage 
costs.[Footnote 18] For example, costs for storing spent nuclear fuel 
at the Hanford Site were estimated at $6 million per year for an 
additional 20 years. The remaining one-third of the projected 
additional costs fall into the category of increased storage capacity 
beyond what would be needed if the Yucca Mountain repository had 
opened in 2020.[Footnote 19] EM's estimate did not include any costs 
in the category of replacing storage facilities and containers because 
it assumed a delay of 20 years would not necessitate the replacement 
of any existing storage buildings or containers. If storage were 
extended well into the future, however, some buildings would need to 
be replaced. For instance, Savannah River Site officials said the high-
level waste canister storage buildings at the site have a design life 
of 50 years,[Footnote 20] but are expected to have a usable life of 
100 years if properly maintained. According to the officials, if 
storage needs to be extended beyond the storage buildings' usable 
life, these buildings would have to be replaced at an estimated cost 
of about $75 million each, the cost when the last one was built in 
2005. 

DOE may also have to replace or reinforce waste containers. 
Specifically, spent nuclear fuel canisters might need to be either 
repackaged or left in the original canister but then placed into a 
larger one, called a canister overpack. For the high-level waste 
canisters, which are not amenable to repackaging (which would involve 
the removal of the high-level waste glass from the original stainless 
steel canisters), Savannah River officials stated that they could 
likely be stored safely on site for a long time, perhaps 1,000 years, 
without the canisters breaching from corrosion. Problems could arise 
earlier for transport to a repository, however. After an estimated 200 
years, DOE could face problems safely retrieving and moving the 
canisters from the on-site storage vault to the permanent repository 
because of potential corrosion at the neck of the canister. Savannah 
River officials explained that a transporter lifts the canister by its 
neck to move it in or out of storage in subsurface vaults, as 
illustrated in figure 2. If a corroded neck breaks when lifted, DOE 
would have difficulties retrieving the canister. Breaking the neck of 
the canister could also contaminate the vault, which would require 
cleanup. Because of these concerns, according to a site official and 
an EM expert, DOE might decide to overpack the high-level waste 
canisters, perhaps as early as after 100 to 150 years of storage. 
Moreover, if DOE did overpack the canisters, it would also need to 
design and construct new storage buildings because the new larger 
overpack would not fit into the storage positions in the existing 
buildings at Savannah River. 

Figure 2: A Transporter Lifting a High-Level Waste Canister over the 
Concrete Storage Vault: 

[Refer to PDF for image: illustration] 

Crosscut illustration of a storage building at Savannah River Site: 

Shielded canister transporter: 

Source: Savannah River Remediation. 

[End of figure] 

It is difficult to accurately estimate these increased on-site storage 
costs because of three key factors. First, how long the wastes will 
remain on-site cannot be projected with certainty because it is 
unclear when an alternative to the Yucca Mountain repository will be 
available. Reflecting the degree of uncertainty, presenters at a March 
2010 EM conference on managing spent nuclear fuel considered a wide 
variety of possible periods of storage, from 40 to 300 years. Second, 
the actual configuration and cost of any future storage systems are 
not yet known. This is because DOE has not devised a plan for long-
term storage and because DOE has yet to make certain decisions that 
could change the type of future storage and costs, according to EM 
officials. For example, because DOE has not decided whether to process 
spent nuclear fuel through Savannah River Site's H-Canyon facility, it 
does not know the final configuration of the waste storage system or 
the cost of storing it. Third, because DOE does not know how long 
current storage systems can be used safely, it does not know the 
appropriate timing for replacing them, EM officials said. They 
emphasized that the useful lives of existing storage systems are 
uncertain and will only be discovered over time through continuous 
surveillance to identify degradation. 

Additional Information on Storage Facilities and Any Unique Storage 
Needs Would Be Required for DOE to Plan for Longer Storage: 

EM officials told us that DOE can extend storage of spent nuclear fuel 
and high-level waste on DOE sites for some time but will need 
additional information on storage facilities to plan storage beyond 
the time set forth in the current site plans. These officials said the 
current plans generally assume that the nuclear waste will be shipped 
to a repository by about 2050, and the sites' facilities are designed 
to last approximately until then. A major exception is that Idaho 
National Laboratory had planned to use its spent nuclear fuel storage 
facilities only through 2035, a date chosen because of the Idaho 
Settlement Agreement's milestone. 

One option for extending on-site storage would be to extend the lives 
of existing storage facilities when they reach the end of their design 
lives. EM officials said they do not know how long a storage facility 
may last because long-term storage at sites is unprecedented. In 
addition, they said they know of no studies that verify the estimates 
of facilities' useful lives beyond their design lives. It is also 
unclear how long the canisters or the spent nuclear fuel can be stored 
without degradation, which would interfere with safe retrieval and 
transport to another location. Such degradation could necessitate 
repackaging or overpacking to meet NRC transportation requirements 
before sending the canisters to a disposal site. 

Although EM officials told us EM has not yet planned for extending the 
lives of storage buildings, an official at Idaho National Laboratory 
told us that studies could be designed to provide confidence that 
storage buildings will last for an additional 20 or 30 years. 
Specifically, these longevity studies could identify components of the 
storage facility that are at risk for failure and repairs that could 
extend storage. For example, a longevity study may conclude that Idaho 
National Laboratory needs to shore up a particular wall in a storage 
area for spent nuclear fuel in order to assure that the area will last 
for another 30 years. Such information would be useful to EM in 
budgeting for the maintenance and repairs that are needed to extend 
the lives of existing facilities or for their replacement at the end 
of their useful lives. Similarly, to assess how to manage aging 
facilities for the long term, EM officials told us about some internal 
proposals for research and development on spent nuclear fuel storage, 
including ways to monitor wet and dry storage for degradation. 
However, it is uncertain how much information this intended effort 
will ultimately provide, since EM officials said that EM has not 
budgeted any funds for this work. 

A second option would be to build new storage facilities for very long-
term storage--such as beyond 120 years--that may exceed the useful 
lives of existing facilities. However, to plan for very long-term 
storage, DOE may need to conduct research to get information about its 
sites' unique storage needs. EM officials said EM currently has no 
research plan for very long-term storage for the wastes at DOE sites. 
An NRC official stated that NRC and other groups are planning to 
research the technical basis for the very long-term storage of 
commercial spent nuclear fuel beyond 120 years. However, it is unclear 
whether this research will address all of DOE's waste storage needs 
since EM officials said DOE storage systems generally differ from 
those used for commercial waste. NRC is not evaluating DOE spent 
nuclear fuel because it generally does not have authority over DOE, 
according to an NRC official. According to NRC officials, NRC also is 
not yet looking at long-term storage of spent nuclear fuel in the two 
NRC-licensed storage facilities at DOE's Idaho and Colorado sites. 
Because this spent nuclear fuel also differs from commercial spent 
nuclear fuel, it will require a unique analysis that NRC is not likely 
to undertake soon, NRC officials said. 

More information would also be needed for DOE and the Navy to decide 
between these two options. New facilities might increase the cost- 
effectiveness of storage over the long term and be better designed to 
monitor deterioration and address security issues. However, DOE and 
the Navy cannot determine the resulting benefit without knowing the 
costs and time periods involved for each of the two options. For 
example, EM officials said DOE would not want to invest in costly new 
storage facilities that could last hundreds of years, only to discover 
that a shorter period of storage was needed. Furthermore, DOE may need 
more information about state and local support for the two options. 
Based on our discussions and review of documents, some states and 
communities may oppose any signs that DOE is planning long-term 
storage at the sites. As New York officials told us, for instance, the 
local community may react negatively to a new storage facility at the 
West Valley site because it would be a visible sign that the nuclear 
waste is not moving.[Footnote 21] On the other hand, some states and 
communities may favor building robust storage facilities to help 
ensure safety. 

DOE and the Navy Have Not Developed Plans to Mitigate the Impact of 
Termination of the Yucca Mountain Repository on Nuclear Waste Storage: 

EM and Navy officials told us they will not make any mitigation plans 
until those plans can be informed by the Blue Ribbon Commission's 
recommendations, which are expected by January 29, 2012. EM officials 
told us that it is too early for EM to jettison its current plans 
because of the uncertainties about the possible alternatives to the 
Yucca Mountain repository. In addition, according to EM management, EM 
will not make any plans for extended storage before the Blue Ribbon 
Commission has made its recommendations because it does not want to 
preclude any strategies or options the Blue Ribbon Commission might 
recommend. 

For some years after the commission's recommendations are available, 
however, DOE and the Navy could experience difficulties planning how 
to mitigate the impact of a termination because uncertainties about 
the alternative to the Yucca Mountain repository may take time to 
resolve. Establishing an alternative site for a repository, for 
example, would likely require new legislation, according the officials 
at DOE's Office of General Counsel. This might reopen lengthy and 
contentious political debates over repository siting. It took almost 4 
years of congressional effort to pass the Nuclear Waste Policy Act of 
1982, followed by about 5 years of additional effort, before Congress 
narrowed the evaluation of possible repository sites to Yucca 
Mountain. In addition, because it is not clear how specific the Blue 
Ribbon Commission's recommendations will be, it may take DOE 
additional work and time to use these recommendations to develop a new 
nuclear waste management policy. For example, it may take time to 
reassess whether to use the same procedures in siting a repository for 
DOE and Navy materials and commercial spent nuclear fuel. According to 
a 1982 Office of Technology Assessment report, this issue was a major 
obstacle to passing nuclear waste legislation in 1979 and 1980. 
[Footnote 22] 

With a termination of the Yucca Mountain repository, both DOE and the 
Navy recognize they will need to devise alternative strategies to meet 
state commitments for removing spent nuclear fuel from both Colorado 
and Idaho, and both are waiting for the Blue Ribbon Commission 
recommendations before planning a strategy. Navy officials said they 
expect that the Blue Ribbon Commission recommendations will define a 
potential alternate path for defense waste that will allow it to 
comply with the Idaho Settlement Agreement and to continue operations 
at DOE's Idaho site. EM officials believe it is too early to talk with 
states about renegotiating agreements and told us that they plan to 
wait until alternative plans to the Yucca Mountain repository can be 
made. In any event, they stated, DOE intends to remain in compliance 
with milestones and requirements in agreements with the states of 
Colorado and Idaho. 

A termination of Yucca Mountain, however, may threaten DOE's and the 
Navy's ability to meet state commitments. Specifically, some 
alternatives that the Blue Ribbon Commission might consider may not 
provide a solution soon enough--in the less than 25 years remaining 
before the 2035 milestones--or may not be applicable to DOE's and the 
Navy's spent nuclear fuel. Although the commission has not indicated 
what it plans to recommend, it has heard testimony on alternatives 
that have previously been discussed and that might allow for removal 
of nuclear waste from DOE sites. One of these alternatives is to 
establish one or more new permanent repositories to replace the Yucca 
Mountain repository. However, establishing another repository may not 
allow enough time to meet the 2035 milestones unless the process is 
more expeditious for a new repository than it was for Yucca Mountain. 
For the Yucca Mountain repository, in 2008 this process was projected 
to ultimately last at least 37 years--from the beginning of the siting 
process in 1983 to the earliest possible start of operations, in 2020. 
The commission is also considering changes to the way nuclear waste is 
stored prior to final disposal. One alternative that DOE previously 
studied for commercial spent nuclear fuel is storing it at a 
centralized site. For our November 2009 report on alternatives to the 
Yucca Mountain repository, an expert in centralized storage estimated 
that opening a centralized facility could take between 17 and 33 years 
from site selection until the facility began accepting waste.[Footnote 
23] A third alternative, which DOE has also previously considered, is 
for the United States to reprocess spent nuclear fuel to create new 
fuel for reactors. However, current reprocessing technology may not be 
cost-effective and, if not managed properly, creates proliferation 
concerns because the resulting materials could be used in a nuclear 
weapon. Transitioning the nuclear industry to new technologies to 
address these concerns could take 50 to 100 years, according to a 2010 
report from the Massachusetts Institute of Technology.[Footnote 24] 
Even then, this solution might apply mainly to commercial spent 
nuclear fuel, rather than the fuel stored at DOE sites, because it may 
be impractical or uneconomical to reprocess the relatively small 
quantities and many different types of spent nuclear fuels stored at 
DOE sites, according to DOE documents and Navy officials. 

Conclusions: 

For decades, the United States has been struggling with the issue of 
what to do with the nuclear waste from weapons production and several 
other sources. With the possible termination of the Yucca Mountain 
repository, it may be about to restart this potentially time-consuming 
and contentious process. In the short term, this is unlikely to affect 
nuclear waste operations for DOE or the Navy. However, long-term 
storage costs at sites are likely to increase since DOE would need to 
store waste for longer periods prior to permanent disposal. 
Furthermore, as a result of the potential termination, DOE and the 
Navy may fail to meet commitments they have made with Colorado and 
Idaho to remove spent nuclear fuel by 2035. 

The fate of the Yucca Mountain repository is still uncertain, and 
DOE's Blue Ribbon Commission may not provide recommendations on a new 
direction for nuclear waste management until January 2012. Given this 
situation, DOE and the Navy cannot yet easily plan or wisely invest in 
long-term storage since they will not know how long they will have to 
store waste at DOE sites. Nevertheless, it seems likely that some 
extension of on-site storage will be needed, and additional 
information about storage systems will be needed to even start 
planning for extended storage. For example, it is not known how long 
the lives of existing facilities can be extended or what will happen 
to the waste or the storage containers during long-term on-site 
storage. EM officials told us that EM currently has no plan for 
developing information on extending the lives of existing facilities, 
but longevity studies could identify components of the storage 
facilities that are at risk for failure and repairs that could extend 
storage. Moreover, although NRC and other groups are planning to 
research the long-term storage of commercial spent nuclear fuel, DOE 
does not have comparable research planned for somewhat different 
storage systems at its sites. Thus, without taking some preliminary 
steps to assess the information necessary to plan for long-term 
storage, DOE and the Navy will not have the understanding needed to 
proceed with such planning when the future direction becomes clearer. 
The alternative is to wait until there is further clarity about 
national and departmental policy, which may take years after the Blue 
Ribbon Commission provides recommendations. 

Recommendations for Executive Action: 

To help prepare for longer storage of nuclear waste at DOE sites, we 
recommend the Secretary of Energy direct the Assistant Secretary for 
Environmental Management, and other DOE officials as appropriate, to 
take the following two actions: 

* Assess the condition of existing nuclear waste storage facilities 
and the resources and information needed to extend the facilities' 
useful lifetimes. 

* Identify any gap between past and ongoing research into long-term 
nuclear waste storage and any additional actions needed to address 
DOE's unique waste storage needs. 

Agency Comments and Our Evaluation: 

We provided DOE and the Navy with a draft of this report for their 
review and comment. The Navy chose not to provide formal comments. DOE 
provided written comments on March 11, 2011, which are summarized 
below and reproduced in appendix II. DOE stated that it agreed with 
our recommendations but disagreed with two aspects of our report--that 
(1) there would likely be delay and increased costs due to DOE's 
decision to terminate a repository at Yucca Mountain and (2) DOE may 
not meet its commitments to the states of Idaho and Colorado. After 
reviewing DOE's comments, we believe that our findings are adequately 
supported and that any assumptions upon which those findings are based 
are appropriately acknowledged. 

We are encouraged that DOE agrees that it needs better information on 
the condition of existing nuclear waste storage facilities as well as 
research on very long-term storage to meet its unique needs. DOE 
recognizes that the waste may remain on its sites for a considerable 
period of time. This will likely require DOE to revise the target date 
in its current plans, which assume that a repository will be available 
in 2020. 

DOE disagreed with parts of the draft report that stated there would 
likely be a delay in removing waste from DOE sites and increased costs 
as a result of DOE's decision to terminate the proposed repository at 
Yucca Mountain. DOE stated that there was no "certain" date for 
opening the Yucca Mountain repository and that any opening was subject 
to contingencies beyond DOE's control. DOE characterized our finding 
of a likely delay as speculation. DOE also stated that the Blue Ribbon 
Commission could propose options that will lead to more rapid disposal 
of waste than the Yucca Mountain approach. 

We believe that using 2020 as an opening date for the Yucca Mountain 
repository was a reasonable assumption for analyzing the effects of a 
possible termination of the program. In 2008, DOE itself established 
this target date for opening the planned Yucca Mountain repository, 
before it took steps to terminate the program. DOE did not provide an 
alternative target or any basis for one in its comments, which would 
be necessary for conducting a meaningful analysis. We agree that the 
opening date for the Yucca Mountain repository was uncertain, and 
therefore we have made clear in the report that our analysis is based 
on DOE's own assumption of a 2020 opening. Regarding DOE's assertion 
that the Blue Ribbon Commission could propose options for more rapid 
disposal, this also provides no new basis for analysis. It is unclear 
how specific the commission's recommendations will be, whether DOE 
will choose to implement them, or how quickly they can be implemented. 
Key alternatives to Yucca Mountain that we reviewed--centralized 
storage, reprocessing, or a new repository--could take decades to 
implement. Therefore, the Yucca Mountain repository could have opened 
many years after 2020 and still possibly have been available sooner 
than these alternatives. Such uncertainties for both the availability 
of the Yucca Mountain repository and for any alternative led us to 
report a "likely" lengthening of the duration of on-site storage. 
DOE's comments provide no basis for revising our finding. 

Second, DOE objected to the suggestion that DOE may not meet its 
commitments to the states of Idaho and Colorado. DOE stated in its 
comments that it intends to meet its commitments to remove spent 
nuclear fuel from those states by 2035, and that there is no factual 
basis to support that the commitments will not be met. However, we 
disagree with DOE's representation of our findings and supporting 
facts. Although our report does conclude that DOE may not meet it 
commitments, it does not state that DOE "will not" meet them. Instead, 
we highlight some challenges to meeting these commitments if the Yucca 
Mountain repository program were terminated. Without the Yucca 
Mountain repository, DOE currently has no planned shipping destination 
for its spent nuclear fuel, and it is not clear when a new destination 
will be available. We also reported that some alternatives that the 
Blue Ribbon Commission might consider may not provide a solution soon 
enough--in the less than 25 years remaining before the 2035 
milestones--or may not be applicable to DOE's spent nuclear fuel. We 
are unable to say more because, as we reported, DOE has yet to 
announce a new plan for meeting its commitments. Its likelihood of 
meeting them will be clearer after DOE specifies how it plans to 
establish a new destination and ship its spent nuclear fuel there by 
2035. 

DOE and the Navy also provided technical comments, which we 
incorporated into the report as appropriate. 

As agreed with your offices, unless you publicly announce the contents 
of this report earlier, we plan no further distribution until 30 days 
from the report date. At that time, we will send copies to the 
appropriate congressional committees, the Secretaries of Energy and 
Defense, and other interested parties. In addition, the report will be 
available at no charge on the GAO Web site at [hyperlink, 
http://www.gao.gov]. 

If you or your staffs have any questions about this report, please 
contact me at (202) 512-3841 or aloisee@gao.gov. Contact points for 
our Offices of Congressional Relations and Public Affairs may be found 
on the last page of this report. GAO staff who made major 
contributions to this report are listed in appendix III. 

Signed by: 

Gene Aloise: 
Director, Natural Resources and Environment: 

[End of section] 

Appendix I: Status of DOE's Preparation of Spent Nuclear Fuel and High-
Level Waste for Disposal: 

The five Department of Energy (DOE) sites manage very different 
amounts of spent nuclear fuel and high-level waste, all of which will 
have to be prepared for disposal in a repository. The inventories 
differ in terms of metric tons of heavy metal for spent nuclear fuel 
and in terms of the number of canisters of high-level waste that will 
be produced (see figure 3).[Footnote 25] The Hanford Site has about 85 
percent of the spent nuclear fuel by weight and is projected to have 
about 45 percent of the canisters of high-level waste. 

Figure 3: 2010 Inventories of Spent Nuclear Fuel and High-Level Waste 
at DOE's Sites: 

[Refer to PDF for image: illustrated U.S. map] 

Fort St. Vrain Site, Colorado: 
* about 15 metric tons of spent nuclear fuel. 

Hanford Site, Washington: 
* about 2,130 metric tons of spent nuclear fuel; 
* about 9,700 high-level waste canisters projected. 

Idaho National Laboratory, Idaho: 
* about 280 metric tons of spent nuclear fuel; 
* about 3,590 to 5,090 high-level waste canisters projected. 

Savannah River Site, South Carolina: 
* about 30 metric tons of spent nuclear fuel; 
* about 2,900 high-level waste canisters produced of about 7,600 
projected. 

West Valley Site: 
* 275 high-level waste canisters produced. 

Totals: 
* about 2,458 metric tons of spent nuclear fuel[A]; 
* about 3,175 high-level waste canisters produced of about 21,165 to 
22,655 projected. 

Source: GAO analysis of DOE data. 

[A] The total includes an approximate two metric tons of spent nuclear 
fuel located at other domestic sites. In addition to this total, about 
25 metric tons of the Navy's spent nuclear fuel is at DOE's Idaho site. 

[End of figure] 

Sites are in very different stages of preparing spent nuclear fuel and 
high-level waste for final disposal. Preparation generally involves 
loading and sealing the materials into stainless steel canisters 
suitable for permanent disposal in a repository. For spent nuclear 
fuel, the Hanford Site has placed almost all of its spent nuclear fuel 
in multicanister overpacks for placement in a repository. DOE has 
planned to place the remaining Hanford inventory of spent nuclear 
fuel--less than 1 percent of Hanford's total--and most of the spent 
nuclear fuel inventory at Idaho National Laboratory into DOE standard 
canisters. DOE, however, has not yet built the needed canister 
packaging facilities.[Footnote 26] At DOE's Idaho site, the Navy's 
spent nuclear fuel is being placed into a different type of canister 
for disposal. DOE also intends to ship the spent nuclear fuel from the 
Fort St. Vrain facility to Idaho National Laboratory for packaging 
into DOE standard canisters shortly before shipping it to a 
repository. For the Savannah River Site, DOE has planned to ship its 
non-aluminum-based spent nuclear fuel to Idaho National Laboratory 
and, in exchange, receive the laboratory's aluminum-based spent 
nuclear fuel to add to its own inventory.[Footnote 27] The Savannah 
River Site would process the aluminum-based spent nuclear fuel at its 
H-Canyon facility, where uranium would be extracted for fuel 
production and a resulting liquid waste stream would be vitrified for 
final disposal as high-level waste in canisters. To date, the spent 
nuclear fuel exchange has not occurred between Idaho National 
Laboratory and the Savannah River Site, and DOE is still considering 
whether to proceed with processing the aluminum-based spent nuclear 
fuel at the H-Canyon facility. 

To prepare high-level waste for shipment to a repository, DOE has been 
converting it to a solid glass form and sealing it in stainless steel 
canisters. Depending on the stage of the processing for disposal, high-
level radioactive waste can be in a liquid, sludge, or crystallized 
form in waste tanks; a solid glass form in a canister; a solid 
granular form (calcine); or a solid ceramic form in a canister. DOE 
initially prepares high-level radioactive waste for disposal by 
transferring the radioactive waste from storage tanks to a treatment 
facility. Treatment can include separation of the waste into high-and 
low-radioactive streams, followed by vitrification that combines the 
high-level waste with glass-forming chemicals to make a glass that is 
poured into stainless steel canisters and sealed by welding.[Footnote 
28] Instead of using vitrification at Idaho National Laboratory, DOE 
first solidified the high-level waste into a granular form, known as 
calcine, and placed it in stainless steel storage bins within concrete 
vaults. To prepare it for transportation and disposal, DOE decided in 
2009 to next process the calcine into a monolithic, possibly ceramic, 
form within a canister. Both the solidified, immobilized glass and 
ceramic forms are designed to keep the waste stable, confined, and 
isolated from the environment. DOE has planned to store the solidified 
high-level waste canisters on site until they are shipped to a 
repository. 

DOE sites are in markedly different stages of preparing high-level 
waste for final disposition, and, overall, DOE has produced about 15 
percent of the projected number of canisters. By early 2010, the 
Hanford Site and Idaho National Laboratory had not yet produced 
canisters of immobilized high-level waste. The Savannah River Site was 
approaching completion of almost 40 percent of its projected number of 
canisters, after starting vitrification operations in 1996. Similarly, 
the West Valley Site began vitrifying waste in 1996 but completed 
production in 2002. Preparing the many remaining canisters of waste is 
expected to be a lengthy process. For example, the Hanford waste 
treatment plant currently being built is not scheduled to begin 
operations until 2019 and then is expected to take almost three 
decades to produce about 10,000 canisters of waste. 

[End of section] 

Appendix II: Comments from the Department of Energy: 

Note: GAO comments supplementing those in the report text appear at 
the end of this appendix. 

Department of Energy: 
Washington, DC 20585: 

March 11, 2011: 

Mr. Gene Aloise: 
Director of Natural Resources and Environment: 
United States Government Accountability Office: 
Washington, DC 20548: 

Dear Mr. Aloise: 

Thank you for the opportunity to review the draft report entitled "DOE 
Nuclear Waste: Better Information Needed on Waste Storage at DOE Sites 
as a Result of Yucca Mountain Shutdown." 

The Department of Energy (DOE) agrees with the draft report's 
conclusion that the termination of the Yucca Mountain repository will 
not affect near-term nuclear waste operations at DOE sites. However, 
DOE disagrees with, and objects to, statements in the draft report 
that there would likely be delay and increased costs due to DOE's 
decision to terminate a repository at Yucca Mountain. As the report 
itself concedes (at page 20),[now on p. 16] there was no "certain" 
date for opening the Yucca Mountain repository, and any opening was 
always subject to contingencies beyond DOE's control. By the same 
token, the report disregards the fact that the Blue Ribbon Commission 
is currently considering these matters and could propose options that 
will lead to more rapid disposal of waste than the Yucca Mountain 
approach. Indeed, after DOE highlighted these and other points, the 
U.S. Court of Appeals for the D.C. Circuit determined that DOE's 
decisions with regard to Yucca Mountain created no irreparable injury. 
While the U.S. Government Accountability Office may view there is 
increased risk of a delay in repository operation, it should not base 
its analysis (as it currently does) on speculation that there will be 
a delay. 

DOE also objects to the suggestion that DOE may not meet its 
commitments to the States of Idaho and Colorado in 2035. DOE intends 
to meet these commitments, and there is no factual basis, and 
certainly nothing in the report, that would support that they will not 
be met at this time. 

That said, we do agree with the two recommendations made in the 
report. The first recommendation suggests that the Office of 
Environmental Management (EM) assess the condition of existing nuclear 
waste storage facilities and of the resources and information needed 
to extend their useful lifetimes. EM has already initiated activities 
to implement the first recommendation (to assess the condition of 
existing nuclear waste storage facilities and of the resources and 
information needed to extend their useful lifetimes). In this regard, 
while we agree that EM is responsible for most of DOE's nuclear waste 
management activities, other Departmental elements have 
responsibilities with respect to nuclear waste and this should be 
acknowledged in this recommendation. [See comment] 

The second recommendation suggests that EM identify any gap between 
past and ongoing research into very long-term nuclear waste storage 
and any additional research needed to address DOE's unique waste 
storage needs. EM has identified innovative technologies and 
strategies needed for long-term storage of high-level waste (HLW) and 
spent nuclear fuel (SNF) (also referred to as used nuclear fuel) 
(Reference: Science and Technology to Reduce the Life Cycle Cost of 
Closure, January 2011). EM is also actively collaborating with other 
Departmental elements to identify other research and development 
activities that address efforts needed to assure safe storage 
capabilities for the very long-term, should that be necessary. 
Examples of these research and development activities include: (1) 
aging management studies to assure fuel and storage system integrity 
in wet or dry storage systems such as remote corrosion 
characterization; repairing aging concrete; and the effects.of water 
chemistries on concrete and fuel corrosion; and (2) improving 
technologies for preparing and packaging SNF for disposal over a broad 
range of future scenarios. We will continue to evaluate and adapt our 
research efforts in light of new plans and information regarding 
nuclear waste management requirements. 

Thank you for providing us an opportunity to review your draft report 
and your assistance in strengthening our HLW and SNF management 
programs. We also appreciate the opportunity for direct dialog with 
you on these important issues prior to receiving the draft report. We 
have enclosed specific comments for your consideration. 

If you have any questions, please contact me or Mr. Frank Marcinowski, 
Deputy Assistant Secretary for Technical and Regulatory Support, at 
(202) 586-0370. 

Sincerely, 

Signed by: 

Inez R. Triay: 
Assistant Secretary for Environmental Management: 

Enclosure: 

cc: 
D. Chung, EM-2: 
C. Anderson, EM-3: 
F. Marcinowski, Acting EM-4: 
K. Picha, Acting EM-20: 
Y. Collazo, EM-30: 

The following is GAO's comment on the Department of Energy's letter 
dated March 11, 2011. 

GAO Comment: 

We acknowledged in our recommendations that they may need to be 
directed to other DOE officials, as appropriate. 

[End of section] 

Appendix III: GAO Contact and Staff Acknowledgments: 

GAO Contact: 

Gene Aloise, (202) 512-3841 or aloisee@gao.gov: 

Staff Acknowledgments: 

In addition to the contact named above, the following staff members 
made key contributions to this report: Janet Frisch, Assistant 
Director; Arkelga Braxton; Kevin Bray; Penney Harwell-Caramia; Scott 
Fletcher; Eugene Gray; Terry Hanford; Jonathan Kelly; Anne Rhodes- 
Kline; Mehrzad Nadji; Ben Shouse; and Vasiliki Theodoropoulos. 

[End of section] 

Footnotes: 

[1] For this report, we use the phrase "nuclear waste" to include both 
DOE's spent nuclear fuel and high-level radioactive waste, since both 
were planned for permanent disposal at Yucca Mountain. However, spent 
nuclear fuel is potentially a resource rather than simply a waste for 
disposal. Although spent nuclear fuel (also known as used nuclear 
fuel) is no longer efficient in generating power in a reactor, it can 
be reprocessed to separate uranium or plutonium that can be used to 
construct nuclear weapons or to again fuel a reactor. Moreover, 
according to EM officials, spent nuclear fuel on DOE sites is not 
managed under waste regulations. 

[2] DOE's estimated quantity is based on the metric tons of spent 
nuclear fuel and an assumption that each canister of high-level waste 
contributes a half metric ton. 

[3] For this report, we refer to responses about the joint DOE and 
Navy managed Naval Nuclear Propulsion Program as responses from the 
Navy to distinguish the program from other DOE operations. Within DOE, 
this program is under the National Nuclear Security Administration, 
which is a separate organization from EM. EM is responsible for 
managing almost all of the spent nuclear fuel and high-level waste on 
DOE sites. 

[4] The majority of waste intended for the Yucca Mountain repository 
is commercial spent nuclear fuel from electric power companies that is 
not in DOE's possession. We are preparing a separate report on the 
impacts of a possible termination of the Yucca Mountain repository on 
the storage of this fuel, stored at 75 commercial reactor sites in 33 
states. 

[5] GAO, Nuclear Waste Management: Key Attributes, Challenges, and 
Costs for the Yucca Mountain Repository and Two Potential 
Alternatives, [hyperlink, http://www.gao.gov/products/GAO-10-48] 
(Washington, D.C.: Nov. 4, 2009). 

[6] A reprocessing plant was used to dissolve the spent nuclear fuel 
in acid and then to extract the uranium and plutonium, leaving behind 
a highly radioactive liquid referred to as high-level waste. 

[7] DOE now manages part of the West Valley site, but the state of New 
York owns the site. 

[8] DOE operates some sites under NRC regulations, such as the NRC- 
licensed storage facilities at Idaho National Laboratory--for fuel 
debris from the Three Mile Island accident--and at Fort St. Vrain. 

[9] In October 2010, a federal district court approved a consent 
decree that imposes a new, enforceable schedule for cleaning up the 
tank waste at Hanford. In addition, the Tri-Party Agreement was 
amended to revise milestones related to this cleanup. 

[10] The document is titled "Agreement Between the Department of 
Energy and the State of Colorado Regarding Shipping Spent Fuel Out of 
Colorado" and was signed February 13, 1996. 

[11] For the spent fuel from Fort St. Vrain, DOE intended to send it 
first to Idaho National Laboratory for further treatment, but the 
Idaho state agreement commits DOE to do so only if a permanent 
repository or alternative interim storage site outside of Idaho is 
open and is accepting spent nuclear fuel. 

[12] A 2008 addendum to the 1995 Idaho Settlement Agreement allowed 
the Navy to continue receiving and examining a limited volume of its 
spent nuclear fuel after 2035. By 2035, any Naval spent nuclear fuel 
that arrived at Idaho National Laboratory prior to 2026 must be 
removed from Idaho. 

[13] DOE is still making a decision about whether a radioactive liquid 
in tanks at Idaho National Laboratory, known as sodium bearing waste, 
should be classified as high-level waste or some other type of 
radioactive waste for disposal. 

[14] Congressional Research Service, Nuclear Waste Disposal: 
Alternatives to Yucca Mountain (Washington, D.C., Feb. 6, 2009). 

[15] The National Research Council, Disposition of High-Level Waste 
and Spent Nuclear Fuel: The Continuing Societal and Technical 
Challenges (Washington, D.C., 2001). However, the report recommends 
geological disposal for long-term storage because it is the only 
available alternative that does not require ongoing control and 
resource expenditures by future generations. Similarly, international 
experts conclude that nuclear waste will eventually need permanent 
disposal because the active controls required for storage cannot be 
guaranteed over the thousands of years that the wastes can remain 
radioactively hazardous. International Atomic Energy Agency, The Long 
Term Storage of Radioactive Waste: Safety and Sustainability, A 
Position Paper of International Experts (Vienna, 2003). 

[16] Our framework of cost categories focuses on the costs of extended 
storage on DOE sites as a result of a termination of the Yucca 
Mountain repository. It does not consider the costs of a yet-to-be-
determined alternative to shipping the nuclear waste to the Yucca 
Mountain repository or whether the alternative would be more or less 
costly than proceeding with the Yucca Mountain repository program. 

[17] These estimates were part of EM's analysis of its 2010 
environmental liability. DOE uses such studies to develop its annual 
financial statement report. The estimate of EM's environmental 
liability is composed of expected costs arising from current planning 
assumptions and from contingency costs, which reflect uncertainties in 
future environmental costs if current planning assumptions--such as 
Yucca Mountain opening in 2020--are not met. 

[18] This category would also include any relicensing costs for DOE's 
two NRC-licensed storage facilities. 

[19] EM's liability estimate is sensitive to assumptions and scope. 
For example, although an EM official told us various scenarios are 
possible, the estimate assumes a decision to defer the packaging of 
Idaho calcine waste into canisters for 20 years, which avoids the 
costs for new on-site canister storage. It also assumes that the 
Savannah River Site will process spent nuclear fuel at a facility 
called H-Canyon. If this does not occur, the site may eventually have 
to build dry storage for the spent fuel. In addition, the EM analysis 
excludes Navy spent nuclear fuel because it is not managed by EM. 
According to a Navy official, if the spent nuclear fuel canisters are 
not shipped to a repository starting about the time of the expected 
opening of Yucca Mountain, then the Navy will have additional costs 
for more storage capacity and protective concrete overpacks, as well 
as additional annual costs for monitoring, maintaining, and operating 
the storage facility. 

[20] Design life is an engineer's assessments of how long the concrete 
vaults in the storage building can last. 

[21] The community's reaction to the new facility occurs in the 
context of a potential termination of Yucca Mountain. However, EM 
officials stated this new storage facility is needed to support the 
cleanup of the West Valley site and is not the direct result of a 
termination of the Yucca Mountain program. 

[22] Office of Technology Assessment, Managing Commercial High-Level 
Radioactive Waste: Summary (Washington, D.C., 1982). 

[23] [hyperlink, http://www.gao.gov/products/GAO-10-48]. 

[24] Massachusetts Institute of Technology, The Future of the Nuclear 
Fuel Cycle: An Interdisciplinary MIT Study, Summary Report (2010). 

[25] Quantities of spent nuclear fuel are expressed in terms of metric 
tons of heavy metal (MTHM), which refers to the weight of the heavy 
metal, typically uranium, excluding other materials such as cladding 
around the fuel. The relative quantities of high-level waste are only 
roughly captured by the number of projected canisters, partly since 
the size of the canisters is not uniform across all sites. In 
addition, EM officials said the amount of high-level waste in each 
individual canister is not uniform in terms of heavy metal, because of 
the different compositions of waste in various storage tanks and 
differences in the amount of waste loaded into canisters over time and 
across sites. 

[26] Because of concerns that metallic sodium creates risks for 
corrosion and explosions in a repository, Idaho National Laboratory is 
processing a portion of its spent nuclear fuel, a type known as sodium-
bonded, with an electrometallurgical treatment that results in high- 
level waste for disposal. 

[27] Spent nuclear fuel may differ in many ways, including the 
cladding around the fuel that may be aluminum or other types of 
material such as stainless steel or zirconium. 

[28] Some other radioactive materials may be disposed of by adding 
them to the high-level waste stream for vitrification. For example, 
DOE is considering vitrifying a portion of surplus plutonium at the 
Savannah River Site and has considered vitrifying strontium and cesium 
that were extracted from tank waste and placed in capsules at the 
Hanford Site. 

[End of section] 

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