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the Chernobyl Nuclear Reactor Faces Schedule Delays, Potential Cost 
Increases, and Technical Uncertainties' which was released on July 27, 
2007.

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Report to the Ranking Member, Subcommittee on National Security and 
Foreign Affairs, Committee on Oversight and Government Reform, House of 
Representatives:

United States Government Accountability Office:

GAO:

July 2007:

Nuclear Safety:

Construction of the Protective Shelter for the Chernobyl Nuclear 
Reactor Faces Schedule Delays, Potential Cost Increases, and Technical 
Uncertainties:

Chernobyl Shelter Project:

GAO-07-923:

GAO Highlights:

Highlights of GAO-07-923, a report to the Ranking Member, Subcommittee 
on National Security and Foreign Affairs, Committee on Oversight and 
Government Reform, House of Representatives

Why GAO Did This Study:

In 1986, an explosion at the Chernobyl nuclear power plant in Ukraine 
destroyed the reactor building and released massive amounts of 
radioactive contamination.  A temporary shelter was built over the 
damaged reactor to prevent further contamination.  The United States is 
a major donor to an international project to build a new shelter to 
replace the existing one, which is badly deteriorating.  GAO was asked 
to (1) assess the progress toward completing the new shelter, (2) 
review the cost estimates to complete the project, and (3) assess the 
U.S. role in overseeing and funding the project.  To carry out its 
work, GAO analyzed program documents, interviewed U.S. and 
international program officials, and visited the Chernobyl nuclear 
power plant.

What GAO Found:

Although two of three construction components—site preparation and 
stabilization of the existing shelter—are nearly finished, construction 
of the new shelter has fallen about 7 years behind schedule.  Over the 
past couple of years, the main reason for schedule slippage has been 
the failure to award a construction contract.  The lack of a contract 
is partly the result of a lengthy disagreement between Ukraine and the 
European Bank for Reconstruction and Development (EBRD).  In late 2006, 
the Chernobyl nuclear power plant director told GAO that the donors 
should not make any additional contributions to the project until 
contracting issues were resolved.  These problems contributed to 
donors’ concerns about when and at what cost the project will be 
completed.  In addition, technical uncertainties associated with the 
construction of the new shelter have also contributed to schedule 
slippages and threaten to further delay the project. The estimated cost 
to complete the Chernobyl Shelter Project is currently $1.2 billion.  
However, a higher cost estimate is likely due to, among other things, 
escalating prices for labor and materials.  Also, many other factors, 
such as expanding the project’s scope to include the removal of the 
radioactive reactor fuel, could raise costs further.

The Department of State, which has the lead role for the U.S. 
government, relies on the EBRD to directly manage the project, 
including the disbursement of funds.  The United States has pledged 
$203 million for the project but still has to provide $49 million to 
meet its current commitment.  In addition, the United States will 
likely be requested to provide funds beyond the $203 million pledged 
because some donor governments may not have the resources or may no 
longer be willing to provide additional funds.  To date, the United 
States has not placed conditions or benchmarks tied to tangible 
progress toward project completion on its contributions to the 
Chernobyl Shelter Fund.

Conceptual Design of the New Shelter:

(See PDF for image.)

Source: Chernobyl Shelter Project Management Unit

[End of figure]

What GAO Recommends:

GAO recommends, among other things, that the Secretary of State 
consider, in consultation with other donor governments and the EBRD, 
establishing benchmarks for the project that need to be met before 
making additional pledges of funds in the future.  State generally 
agreed with our recommendations.  However, State cautioned that the use 
of benchmarks could lead to further project delays or increase costs.  
We strongly believe that benchmarks could encourage timely project 
completion at agreed upon costs.

[hyperlink, http://www.gao.gov/cgi-bin/getrpt?GAO-07-923].

To view the full product, including the scope and methodology, click on 
the link above. For more information, contact Gene Aloise at (202) 512-
3841 or aloisee@gao.gov.

[End of section]

Contents:

Letter:

Results in Brief;

Background;

Construction of the New Shelter Is about 7 Years behind Schedule and 
Could Face Further Delays;

Estimated Costs to Complete the Project Are $1.2 Billion and Will 
Likely Increase, and Final Costs Are Uncertain;

State Has No Direct Management Responsibilities for the Chernobyl 
Shelter Project but Has Played a Key Role in Providing Funding;

Conclusions;

Recommendations for Executive Action;

Agency Comments and Our Evaluation;

Appendix I: An Analysis of the Chernobyl Nuclear Power Plant Accident;

Appendix II: Objectives, Scope, and Methodology;

Appendix III: Donor Governments' Contribution Agreements with the 
Chernobyl Shelter Project, as of September 2006;

Appendix IV: Comments from the Department of State;

Appendix V: Comments from the U.S. Agency for International Development;

Appendix VI: GAO Contact and Staff Acknowledgments;

Tables:

Table 1: ChNPP Director's Analysis of Schedule Delays and Cost 
Increases for Other Internationally Funded Construction Projects at 
Chernobyl, as of October 2006;

Table 2: U.S. Pledges to the Chernobyl Shelter Project;

Figures:

Figure 1: The Damaged Reactor Building and the Existing Shelter Built 
over It;

Figure 2: Design of the Proposed New Chernobyl Shelter;

Figure 3: Completed Change Facility at the Chernobyl Site;

Figure 4: Stabilization Work for the Western Wall;

Figure 5: The Interim Spent Fuel Storage Facility at Chernobyl;

Figure 6: Chernobyl Project Contribution Agreements from the European 
Commission, United States, other G-7 countries, Ukraine, and 21 other 
countries, as of September 2006;

Abbreviations:

ChNPP: Chernobyl Nuclear Power Plant; CSF: Chernobyl Shelter Fund;
DOE: U.S. Department of Energy;
EBRD: European Bank for Reconstruction and Development: 
IAEA: International Atomic Energy Agency; 
G-7: Group of Seven major industrialized countries; 
MOU: memorandum of understanding;
NRC: U.S. Nuclear Regulatory Commission; 
PMU: project management unit; 
RBMK: reactor bolshoy moshchnosty kanalny; 
SIP: Shelter Implementation Plan;
State: U.S. Department of State;
USAID: U.S. Agency for International Development:

[End of section]

United States Government Accountability Office:
Washington, DC 20548:

July 19, 2007:

The Honorable Christopher Shays:
Ranking Member:
Subcommittee on National Security and Foreign Affairs:
Committee on Oversight and Government Reform:
House of Representatives:

Dear Mr. Shays:

On April 26, 1986, the worst accident in the history of civilian 
nuclear power occurred at the Chernobyl nuclear power plant in Ukraine, 
where an explosion destroyed the core of reactor unit four containing 
approximately 200 tons of nuclear fuel[Footnote 1]. The explosion also 
destroyed much of the reactor building, severed the reactor's cooling 
pipes and spewed hot fragments of reactor fuel from the core, igniting 
at least 30 fires in nearby buildings. The explosion and heat from the 
reactor core propelled radioactive material as much as six miles high, 
where it was then dispersed mainly over 60,000 square miles of Ukraine, 
Belarus, and Russia. Smaller amounts of radioactive material spread 
over eastern and western Europe and Scandinavia and were even detected 
in the United States. About 6 months after the accident, the 
construction of a 21-story-high metal and concrete shelter was 
completed to enclose the damaged reactor and confine the remaining 
radioactive material. This shelter--which was never intended to serve 
as a permanent solution for confining the long-lived and highly 
radioactive material--is badly deteriorating, and rain entering through 
holes and cracks is corroding and further weakening the structure. 
International nuclear safety experts, including officials from the 
International Atomic Energy Agency (IAEA), are concerned that the 
weakened shelter could collapse and release a radioactive dust cloud 
that could, among other things, create a health and safety hazard, 
complicate continuing accident recovery efforts, and have further 
adverse environmental impacts on the region. Figure 1 shows the impact 
of the explosion on the reactor building and the hastily built shelter 
that needs to be replaced.

Figure 1: The Damaged Reactor Building and the Existing Shelter Built 
over It:

[See PDF for image]

Source: Chernobyl Nuclear Power Plant

[End of figure]

The United States and other countries sponsored the development of a 
Shelter Implementation Plan (SIP), finalized in 1997, that outlined the 
steps to create safe conditions for the damaged reactor and the 
existing shelter. The SIP is the basis for an ongoing project to 
replace the existing shelter with a new one. The new shelter is 
technically known as the New Safe Confinement. For the purposes of this 
report, we refer to project activities performed under the SIP as the 
Chernobyl Shelter Project and refer to the New Safe Confinement as the 
new shelter.

The new shelter is designed to be an arch-shaped structure enclosed by 
flat walls at each end, standing roughly 32 stories high and wider than 
two football fields at its base. To minimize the workers' exposure to 
radiation, the new shelter will be built at a distance from the 
existing shelter and then slid over it on concrete tracks. After it is 
in place, the new shelter is designed to reduce the exposure of the 
existing shelter to weather and minimize the release of radioactive 
dust resulting from a possible collapse of the existing shelter. This 
structure, which has an expected service life of at least 100 years, is 
also intended to support the deconstruction of the unstable upper 
portions of the existing shelter and the eventual removal of the 
remaining highly radioactive material that contains fuel from the 
damaged reactor core. As currently envisioned, the removal of this 
material will not be undertaken until a long-term storage repository is 
available, likely decades after the end of the shelter project. Ukraine 
will be responsible for removing this material and storing it, as this 
activity is outside the scope of the Chernobyl Shelter Project.

Figure 2 shows the conceptual design of the new shelter.

Figure 2: Design of the Proposed New Chernobyl Shelter:

[See PDF for image]

Source: Battelle Memorial Institute

[End of figure]

In addition to replacing the shelter, the project has two other main 
construction components--preparing the site for construction and 
stabilizing the existing shelter to prevent its collapse. The project 
is financed by 29 countries and the European Commission, primarily 
through donations to the Chernobyl Shelter Fund (CSF).[Footnote 2] As 
of September 2006, payments to CSF, earned interest, and in-kind 
contributions had reached about $930 million.[Footnote 3] At that time, 
almost $380 million from CSF had been spent for administrative costs 
and project contracts. Thus far, the United States has contributed 
about $154 million ($169 million adjusted for inflation) of the total 
$203 million it has pledged since 1997.[Footnote 4] As the largest 
single-country donor, the United States has provided roughly 19 percent 
of total contributions to CSF, whereas the European Commission has 
contributed the largest portion, about 26 percent of all contributions.

U.S. funding has come from appropriations under the FREEDOM Support 
Act, which broadly supports economic and political reforms in Ukraine 
and other newly independent countries following the 1991 dissolution of 
the Soviet Union.[Footnote 5] The United States and other countries 
gave the responsibility to administer the Chernobyl Shelter Fund to the 
European Bank for Reconstruction and Development (EBRD), a multilateral 
bank that invests in countries from central Europe and the former 
Soviet Union to help build market economies and democracies.[Footnote 
6] EBRD subsequently established a framework for the project, including 
the CSF rules that defined the roles for the bank and donor 
governments. In addition, a Framework Agreement between EBRD and 
Ukraine was ratified by the Ukrainian government, which created a legal 
basis for the project in Ukraine.

In addition to EBRD, at least 10 organizations play a role in the 
Chernobyl Shelter Project, including a joint committee of high level 
officials from EBRD and the government of Ukraine, and Ukrainian 
ministries and regulators.[Footnote 7] An assembly of contributors-- 
composed of representatives from the donor governments that pledged 
about $3 million or more--acts similar to a board of directors and 
approves the overall policy direction for the project.[Footnote 8] EBRD 
provides its expertise to manage the fund and, among other things, 
provides grants to the state-owned Chernobyl Nuclear Power Plant 
(ChNPP), the Ukrainian organization that is ultimately responsible for 
the project. ChNPP established a management team--known as the project 
management unit (PMU)--with a staff of about 160 employees. The PMU, 
which is responsible for the day-to-day implementation of the project, 
is staffed by ChNPP employees and a consortium of consultants from 
three western companies: (1) Bechtel International Systems 
Incorporated, which provides the PMU's managing director and has lead 
responsibility for project management; (2) Battelle Memorial Institute, 
whose main tasks involve environmental, health, and safety issues; and 
(3) Electricité de France, a French company that provides technical 
expertise.[Footnote 9]

As a major donor country, the United States plays a prominent role in 
the project's assembly of contributors. Although the Department of 
Energy (DOE) and the U.S. Nuclear Regulatory Commission (NRC) 
participated in various safety and regulatory tasks for the Chernobyl 
Shelter Project early on, they no longer have any direct responsibility 
for the project. The Department of State (State) serves as the primary 
U.S. government agency for Chernobyl shelter-related matters. In 
addition, the U.S. Agency for International Development (USAID) 
supports State and, among other things, administers payments to the 
shelter fund.

Because of the significant U.S. investment in this project and an 
interest in seeing its timely completion, you requested that we 
undertake a review of U.S. and international efforts to construct a new 
shelter. In response to your request, this report (1) assesses progress 
toward completing the new shelter and factors that impact completion, 
(2) reviews the cost estimates to complete the project, and (3) 
assesses the U.S. role in overseeing and funding the project.

To examine the Chernobyl Shelter Project's progress, we analyzed 
documentation and interviewed EBRD officials in London and Ukraine, 
Ukrainian officials in Kyiv and at the Chernobyl site, and officials 
with the PMU in the United States and at Chernobyl. We also reviewed 
project progress reports, management audits, project schedules, and 
risk assessment documents. To review the project's estimated costs, we 
obtained data from and discussed these cost issues with officials from 
the United States and other donor governments, EBRD, and the PMU. We 
also reviewed project cost estimates and EBRD summaries of project 
contributions by the donor governments. To determine the United States' 
role in overseeing and funding the project, we interviewed and obtained 
documentation from State and USAID. We also interviewed DOE and NRC 
officials to obtain information about their agencies' roles in 
providing assistance to Chernobyl. We performed our work from May 2006 
through June 2007 in accordance with generally accepted government 
auditing standards. Further details of our scope and methodology are 
presented in appendix II.

Results in Brief:

Although two of three construction components--site preparation and 
stabilization of the existing Chernobyl shelter--are nearly finished, 
completion of the project's final major and most visible component--the 
new shelter--is about 7 years behind schedule. The schedule to complete 
the new shelter has slipped from 2004 to no sooner than 2011. Over the 
past couple of years, the main reason for schedule slippage has been 
the failure to award a contract to construct the new shelter, which has 
developed into a lengthy and contentious issue between Ukraine and EBRD 
and raised concerns among the donors about when and at what cost the 
project will be completed. Specifically, Ukraine disagreed with the 
likely selection of a French contractor to construct the new shelter, 
but EBRD contended the selection process could not deviate from the 
bank's procurement rules. By the fall of 2006, the disagreement had so 
strained relations between Ukraine and EBRD that the Chernobyl plant 
director told us the donors should not make additional contributions 
until contracting issues are resolved. More recently, however, an EBRD 
official said that relations were improving. In addition, frequent 
changes in Ukrainian leadership responsible for the project, overall 
project management complexity, and technical uncertainties associated 
with the construction of the new shelter have also contributed to 
schedule slippages and threaten to further delay the project:

*The lack of stable leadership and continuity among key Ukrainian 
organizations and officials has and could continue to create delays. 
For example, in the last 6 years, there have been four plant directors 
who are responsible for all major Ukrainian decisions for the project. 
According to a senior PMU official, the frequent change of directors 
affects the schedule because the project is forced to adjust to each 
director's new approach.

*The many organizations that impact the project's performance-
-including the assembly of contributors, EBRD, as well as Ukrainian 
ministries and regulators--have made it difficult to reach unanimous 
and quick agreement on project decisions.

*Technical uncertainties associated with constructing a one- of-a-kind 
structure at a radioactively contaminated site could also result in 
delays. The new shelter's final design will require the approval of 
Ukraine's regulatory agencies. If the final design deviates 
significantly from the already approved conceptual design, the 
regulators may require additional time to review and clarify new design 
issues. Moreover, if unexpectedly large amounts of high-level 
radioactive waste are found on site, work could be stalled while 
details for removal and storage are resolved.

The estimated costs of completing the Chernobyl Shelter Project are 
currently $1.2 billion and will likely increase. In 1997, a preliminary 
estimate of $758 million was developed to allow fund- raising for the 
project to begin. This estimate excluded a variety of costs that were 
later added to make a more thorough estimate--such as reserve funds to 
provide for project uncertainties and risks as well as rising material 
and labor prices. When these costs were added in 2003, the total 
estimated cost increased to over $1 billion. The estimate rose again to 
$1.2 billion in 2006, which primarily reflected reconciling the 
estimated cost of constructing the new shelter with actual contractor 
bids. EBRD officials told us that the final project cost continues to 
be difficult to estimate because the single most expensive project 
task--the construction of the new shelter, estimated to cost over $500 
million--has not begun. However, a higher cost estimate than $1.2 
billion is likely because of, among other factors, rising prices for 
labor and materials during the delay in awarding the new shelter 
contract, according to a PMU cost expert. PMU officials and 
representatives from several donor governments, including the United 
States, stated that many other factors, such as expanding the project's 
scope to include the removal of the radioactive fuel from the reactor, 
could lead to further cost increases. Many of these representatives are 
also concerned that shelter costs are likely to rise because 
internationally funded construction projects often experience 
significant cost overruns. For instance, Chernobyl's plant director 
said the project could repeat the pattern of schedule delays and rising 
costs found in other Chernobyl projects. One of those projects--the 
construction of a facility to store spent nuclear fuel--was suspended 
in 2003 because of design flaws. An additional $150 million to $200 
million--on top of the $96 million already spent--may be needed to 
modify or completely rebuild the facility.

The U.S. State Department, which has the lead role for the U.S. 
government, does not directly manage or oversee the Chernobyl Shelter 
Project, but it does provides funding through EBRD. Similar to the 
other contributors, State relies on EBRD to provide oversight and 
management of the Chernobyl shelter fund. The project's management 
structure limits State's role, but the agency primarily seeks to exert 
influence on the project's direction and performance through the 
assembly of contributors. However, State's role in influencing the 
project's direction is constrained because all major decisions must be 
based on consensus of assembly members. Despite these limitations, 
State recently played a key role in trying to move the project forward. 
Specifically, State took the lead at an October 2006 assembly meeting 
to address issues between EBRD and Ukraine about the selection of a 
contractor to complete the new shelter. State's proposal--to have a 
Ukrainian-selected observer monitor continuing contract negotiations-- 
was accepted by the contributors and Ukraine as an interim step toward 
awarding the final contract. Regarding State's role in providing 
project funding, State officials said the department intends to pay the 
remaining $49 million of the $203 million pledged by the United States 
to the Chernobyl Shelter Project, even though FREEDOM Support Act 
funds, which are State's exclusive source for funding the project, have 
been decreasing. The United States will likely be requested to provide 
funds beyond those already pledged because, under current project cost 
projections of $1.2 billion, additional funds totaling about $190 
million will be needed from the donors. According to State and United 
Kingdom officials, some donor governments may not have the resources-- 
or may no longer be willing--to provide funds beyond those already 
pledged. To date, the United States has not placed conditions on the 
contributions made to the Chernobyl Shelter Fund--that is, specific 
benchmarks tied to tangible progress toward project completion. 
Moreover, since State may need to approach the Congress for additional 
funds, the Congress, in our view, will need more information than 
currently provided. State has not systematically provided the Congress 
with detailed information about the project's status, including cost 
estimates and schedule slippages. Rather, in its annual congressional 
budget justification for foreign assistance, it only provides a brief 
statement about its continuing financial support of the shelter project.

To help ensure that the United States has a clear and consistent 
strategy, as well as a sound basis for continuing to support the 
Chernobyl Shelter Project, we are recommending that, among other 
things, the Secretary of State consider, in consultation with other 
donor governments and the European Bank for Reconstruction and 
Development, establishing benchmarks for the project that need to be 
met before additional pledges of funds are made. In addition, to 
increase State's accountability and transparency for funding the 
project, the Secretary of State should provide a detailed annual report 
to the Congress about the status of the project, including project 
costs, project milestones, and estimated completion dates.

We provided the Department of State and the U.S. Agency for 
International Development with draft copies of this report for their 
review and comment. In their written comments, both State and USAID 
agreed with our main findings and State generally agreed with our 
recommendations to the Secretary of State. However, both State and 
USAID raised some concerns regarding the establishment of specific 
benchmarks for the project. Both agencies asserted that linking 
additional funds to specific performance benchmarks requires careful 
consideration because it could lead to further project delays or 
increase costs. We strongly believe that benchmarks could encourage 
timely project completion at agreed upon costs.

Background:

The Chernobyl accident left Ukraine with a costly legacy of population 
displacement as well as a host of health care and economic problems. 
Approximately 116,000 area residents in 1986, and another 220,000 in 
subsequent years, were evacuated and in need of resettlement from the 
most heavily contaminated areas in the region. Although international 
nuclear safety and health experts report that 30 workers died in 1986 
from the explosion or severe radiation exposure, the magnitude of 
longer-term health consequences resulting from the accident is still 
being investigated. According to the United Nations' Chernobyl Forum, 
the regional health impacts of the Chernobyl accident remain a concern 
20 years after the accident. Of particular concern is the large number 
of thyroid cancer cases among children who drank milk that was 
contaminated by radioactive fallout from the Chernobyl accident. In 
addition, in a 2006 United Nations sponsored report, international 
health experts predicted that radiation could cause up to 4,000 
eventual cancer deaths among the higher exposed Chernobyl populations, 
such as the emergency workers who helped put out the fires and build 
the original shelter.

In addition to the human toll, the Chernobyl accident has resulted in 
significant economic costs to Ukraine. These costs, which are difficult 
to quantify, include the removal of agricultural land and timber 
forests from production as well as the closure of agricultural and 
industrial facilities to protect people from further radioactive 
contamination. One major concern to Ukraine has been the displacement 
of about 6,000 workers who were employed by the ChNPP. Finally, costly 
government expenditures to remediate contaminated areas, provide 
medical services and social benefits for the affected populations, and 
restore the region's social and economic well-being have placed a heavy 
burden on Ukraine's national budget. Ukraine still devotes 5 percent to 
7 percent of total government expenditures to Chernobyl-related 
benefits and programs.

U.S. participation in the Chernobyl Shelter Project began as part of a 
larger U.S. and international effort to improve the safety of Soviet- 
designed civilian nuclear power reactors. This effort, which was 
established in the early 1990s, targeted the highest-risk Soviet- 
designed reactors for short-term safety upgrades until they could be 
permanently shut down.[Footnote 10] As part of this effort, in 1995 
Ukraine, the European Commission, and the "Group of Seven" major 
industrialized countries (G-7), including the United States, signed a 
memorandum of understanding (MOU) about the closure of the remaining 
operating reactors at the ChNPP.[Footnote 11] The MOU--which led to the 
closure of the last operating reactor at Chernobyl in late 2000--also 
stated that a cost-effective and environmentally sound approach to 
address the damaged shelter would be cooperatively developed.

U.S. assistance with Chernobyl-related problems has also evolved within 
broader policy objectives to forge a political and economic 
relationship with Ukraine. Since the Soviet Union's dissolution led to 
Ukraine's independence in 1991, the United States has sought to support 
its transition to a democratic society with a market-based economy that 
is more closely integrated with Europe and the United States. As part 
of this assistance, the United States has been a major contributor of 
funds to help Ukraine address social, economic, and health problems 
associated with the accident and its aftermath. For example, State 
reports its programs for Ukraine have funded the delivery of $582 
million in humanitarian assistance since 1992, which were collected 
from private donations and the Department of Defense. Approximately one-
half of this assistance was targeted to those affected by the Chernobyl 
accident. The United States has also invested nearly $12 million in 
health programs. These programs included screening and treatment for 
childhood physical and mental illnesses related to Chernobyl radiation, 
breast cancer awareness, and access to modern cancer treatment.

Construction of the New Shelter Is about 7 Years behind Schedule and 
Could Face Further Delays:

Two of the Chernobyl Shelter Project's three major construction 
components--site preparation and existing shelter stabilization--were 
nearly finished at the end of 2006, about a decade after the project's 
plan was developed. However, the project's largest construction task-- 
building the new shelter--is not expected to be completed until about 7 
years after the original scheduled completion date of 2004. As a result 
of protracted delays in awarding the contract to design and build the 
new shelter, construction has not yet begun. Furthermore, problems 
surrounding the project have strained relations between EBRD and 
Ukrainian officials, raising concerns among the donors, including the 
United States, about the prospects for completing the project. 
Moreover, frequent leadership changes among Ukrainian ministries and 
officials, management difficulties associated with the many 
organizations participating in the project, and technical uncertainties 
related to constructing a one-of-a kind structure have delayed and 
could continue to delay the completion of the new shelter.

Work to Prepare the Chernobyl Site and Stabilize the Existing Shelter 
Is Nearing Completion, but Construction on the New Shelter Has Not Yet 
Begun:

Two major activities integral to the Chernobyl project are nearing 
completion--providing infrastructure improvements at the Chernobyl site 
and stabilizing the existing shelter to prevent its possible collapse. 
Both of these activities are essential precursors to replacing the 
existing deteriorating shelter with a new one. Specifically, site 
preparation was necessary to create facilities and infrastructure 
services to support the construction work on both the existing and new 
shelters. Some infrastructure tasks remain to be done, such as an 
Integrated Automated Monitoring System, which monitors structural 
movements, seismic vibrations, radiation, and nuclear measurements 
within the existing shelter. Also, a decision to refurbish or construct 
a sewage treatment plant is still under consideration. Nevertheless, 
many support facilities and infrastructure services were operational by 
early 2005. The completed site preparation work includes refurbishing 
power, water, and drainage infrastructure as well as providing road and 
rail connections to two operations areas that support existing shelter 
stabilization and new shelter construction. In addition, a building 
with change rooms, showers, and radiological monitoring facilities--
known as a change facility--has been constructed for controlling the 
access of workers to the construction site. This building will allow up 
to 1,430 workers involved in the construction of the new shelter to 
change their work clothes daily as a precaution against a possible 
spread of radioactive contamination. This building also includes 
medical and ambulance facilities for responding to medical emergencies. 
Figure 3 shows the change facility that will support the health and 
safety needs of the Chernobyl construction workers responsible for 
building the new shelter.

Figure 3: Completed Change Facility at the Chernobyl Site:

[See PDF for image]

Source: Chernobyl Nuclear Power Plant.

[End of figure]

The second major construction component--the measures to stabilize and 
thus minimize the likelihood of the existing shelter's collapse--was 
essentially completed at the end of 2006. According to a PMU official, 
the main remaining tasks are a monitoring period through about 
September 2007, which will lead to a determination about the possible 
need for some additional work, and the commissioning of the 
stabilization measures. Although emergency stabilization of the 
shelter's roof structures and an adjacent ventilation stack was 
completed in the late 1990s, the bulk of the stabilization activities 
started in December 2004 and was completed 2 years later. Analysis of 
the risks of radiation exposure to workers from the stabilization work 
and the probability and consequences of shelter accidents led to a 
project decision to pursue only 9 stabilization measures, instead of 
the original 29 measures recommended by a PMU contractor. These 9 
measures focus on strengthening the existing shelter's walls and roof 
support beams in particular places. For example, the last of these 
measures was to transfer about half the weight of the heavy roof load 
from the western wall of the reactor building onto support towers. 
Figure 4 shows a portion of the metal support towers that are intended 
to stabilize the main roof beams.

Figure 4: Stabilization Work for the Western Wall:

[See PDF for image]

Source: Chernobyl Nuclear Power Plant

[End of figure]

Despite the progress achieved on the two construction activities, the 
schedule for completing the new shelter--the third and most visible 
construction component--has slipped by about 7 years. The 1997 SIP 
established a preliminary schedule for completing the new shelter 
construction in March 2004. However, by late 2006, the Chernobyl PMU 
had extended the completion date to January 2011.[Footnote 12] The 1997 
implementation plan had included unrealistic schedule assumptions. For 
example, according to an EBRD official responsible for the Chernobyl 
Shelter Fund (CSF), the SIP assumed the western contractors providing 
project management (Bechtel International Systems Incorporated, 
Electricité de France, and Battelle Memorial Institute) would be in 
place immediately. However, this did not occur until early 1999, after 
Ukrainian decrees were finally developed to support the project. 
Specifically, in February 1999, the Ukrainian Cabinet of Ministers 
issued a decree releasing contractors from civil liability for nuclear 
damage, a prerequisite before contractors would consider working at 
Chernobyl.[Footnote 13] Moreover, according to EBRD, the emergency 
repair to the shelter in 1999 showed it would be impossible to do 
significant work at the Chernobyl site without major investment in site 
infrastructure. Major portions of the support facilities and 
infrastructure, such as roads and water services, did not become 
operational until early 2005.

In addition, according to EBRD, the SIP did not allocate sufficient 
time for the technical and regulatory reviews and subsequent Ukrainian 
government approvals. The review process added 2 years to the project's 
schedule. PMU officials stated that other reasons contributed to 
delays. They indicated the largest single delay was the start of the 
conceptual design about 3 years after its original schedule. These 
officials attributed the delay to the time needed after the breakup of 
the Soviet Union to create a sufficiently mature Ukrainian 
infrastructure--such as banking and legal systems--to support a 
contract for the conceptual design. As a result of the unrealistic 
assumptions and on-the-ground conditions, by July 2004, the project had 
only advanced to the point of having the new shelter's preliminary 
design, known as a conceptual design, approved by the Ukrainian Cabinet 
of Ministers--about 3 months after the date that the SIP had forecast 
completing construction of the new shelter.

An EBRD official told us, however, that the SIP was never expected to 
provide a precise schedule because major project questions such as the 
design for the new shelter had yet to be addressed. Moreover, the 
official said that the SIP had established an artificial start date of 
January 1997. According to an EBRD report, the project had a largely 
defined scope and schedule by 2003. Nevertheless, we found that the new 
shelter's completion date has continued to slip even after the new 
shelter's design was significantly clarified and the schedule was 
revised to reflect project refinements. As of late 2006, the scheduled 
completion of the new shelter was more than 2 years later than 
estimated in 2003.

Over the past couple of years, the primary reason for further schedule 
slippages of the Chernobyl project has been the failure to award a 
contract for the final design and construction of a new shelter. Until 
this contract is awarded, the project cannot go forward. In 2003, the 
PMU estimated that the contract for final design and construction would 
be awarded in 2004. As of early July 2007, however, the contract has 
not been awarded. As a result, the final design and construction of the 
new shelter has not yet begun.

Several procurement-related problems have delayed the ontracting 
process from the beginning. For example, the request for contract bids 
was released in March 2004, which was about 2 months later than 
forecasted at the time. In addition, the proposal submission deadlines 
for both the technical and commercial evaluations of bids were each 
extended over a month. Moreover, despite lengthy clarifications of 
contract requirements with potential bidders, the two bidding 
consortiums--one led by a U.S. firm CH2M Hill and another called 
Novarka headed by a French firm--submitted proposals that did not 
comply with the requirements. The noncompliant proposals tendered by 
the two consortiums had to be resubmitted for consideration by the 
proposal evaluation committee.

More recently, the likely awarding of the contract to the French-led 
consortium as the lower bidder has created controversy, as Ukraine has 
raised objections and CH2M Hill filed a bid protest with EBRD.[Footnote 
14] The ChNPP director and an official from the Ministry of Emergency 
Situations told us they believe the Novarka bid proposal contains 
significant deviations from contract requirements, which runs contrary 
to the majority view expressed in the proposal evaluation committee's 
report.[Footnote 15] Ukraine began disagreeing with EBRD over the 
selection process in March 2006 when Ukraine sought to reopen the 
proposal evaluation process or restart the contracting process. In 
response to a Ukrainian request to overturn EBRD's nonobjection to the 
evaluation committee's report, a bank official refused, responding that 
no new information had been provided for consideration.[Footnote 16] 
When CH2M Hill filed a bid protest shortly thereafter, EBRD halted the 
contracting process and initiated a 6-month investigation to ensure 
that the contract processing had been conducted in accordance with EBRD 
procurement rules. Based on its examination, EBRD concluded in 
September 2006 that CH2M Hill's complaint could not be upheld and the 
contracting process could continue. Then, Ukraine again raised 
objections about the contracting process and its likely outcome. As of 
May 2007, a PMU official told us that PMU and Novarka officials were 
still negotiating open points about the Novarka proposal that must be 
settled before the contract is awarded.

EBRD must certify the contract as being in accordance with bank 
procurement rules and the ChNPP director must approve the contract 
before it can be executed. However, based on our discussions with both 
EBRD and the ChNPP director in October 2006, it was clear that 
relations between both sides were extremely strained. For example, the 
ChNPP director told us that the donors should not make additional 
contributions to the shelter fund until contracting issues are 
resolved. An EBRD official told us that the bank would consider 
withdrawing from administering the project if the assembly of 
contributors approved Ukrainian proposals that conflict with EBRD 
procurement rules. However, in May 2007 an EBRD official told us that 
relations with Ukrainian officials have been gradually improving.

Officials from several donor governments told us they were growing 
increasingly concerned about the delays in awarding the contract for 
the new shelter's final design and construction. European Commission 
officials asserted that the donors were losing patience with the 
project and that it was becoming more difficult to justify continued 
financial support. The officials noted that the European Commission had 
to convince its approximately 400 million taxpayers that their 
investment was worthwhile. Given the growing concerns over costly 
delays, State officials said that the overarching need is the timely 
completion of a fair and transparent contracting process, regardless of 
which qualified bidder is selected. In their view, it is important to 
keep the project moving forward to demonstrate that all parties 
involved are serious about completing the new shelter as expeditiously 
as possible.

Frequent Project Leadership Changes, Management Difficulties, and 
Technical Uncertainties Have Delayed and Could Further Delay the 
Completion of the New Shelter:

In addition to the problems associated with awarding the new shelter 
contract, several factors have also contributed to schedule slippages 
and threaten to further delay the project even after the contract is 
awarded. These factors include (1) frequent changes in the Ukrainian 
leadership responsible for the project, (2) overall project management 
complexity, and (3) technical uncertainties associated with 
constructing the new shelter.

Lack of Stable Project Leadership:

Frequent project leadership changes have created, and could continue to 
create, schedule delays. For example, ChNPP directors are politically 
appointed and responsible for major Ukrainian decisions for the 
Chernobyl Shelter Project, including approving the construction 
contract for the new shelter. In the last 6 years, there have been four 
ChNPP directors, the latest appointed in mid-2005. According to a 
senior PMU official, the frequent changing of ChNPP directors created 
delays because the project had to adjust to accommodate each director's 
new approach to implementing the project. Furthermore, the project was 
stalled for months in 2005 as a result of a major Ukrainian government 
reorganization following a presidential election that shifted authority 
over ChNPP from the Ministry of Fuel and Energy to the Ministry of 
Emergency Situations.

Two former high-ranking Ukrainian officials told us that the changes in 
leadership have had a negative impact on the Chernobyl Shelter Project. 
A former official from the Ministry of Fuel and Energy told us the 
change was disruptive to the shelter project's progress because the 
Ministry of Emergency Situations wanted to revisit past project 
decisions and no personnel from the Ministry of Fuel and Energy were 
transferred to the newly responsible ministry to maintain continuity of 
expertise. Similarly, the former head of Ukraine's regulatory 
organization asserted that the recent change in government resulted in 
the loss of many capable regulatory officials who had institutional 
knowledge of the project. As a result, some past decisions were 
overturned and many new questions were being raised about regulatory 
matters that had been previously addressed.

The possibility of continuing leadership changes creates uncertainties 
for the project's schedule. According to a senior PMU official, the 
current project schedule does not account for the risks of delays 
arising from political leadership and policy changes--not because such 
risks do not exist but because they are difficult to assess. EBRD has 
indicated that sustaining high-level Ukrainian government attention and 
a stable institutional environment is particularly crucial in this 
project phase, where any delay is costly. EBRD established the 
Ukrainian and EBRD Joint Committee in 1998 to promote government 
attention and to ensure that Ukrainian policies and institutions 
support the project's progress. Over the years, the joint committee has 
addressed various project issues requiring Ukrainian government 
actions, including tax and customs exemptions and Ukrainian 
contributions to the project. However, the joint committee has had 
mixed experiences in maintaining good cooperation. According to an EBRD 
official, the joint committee has been effective at creating some 
periods of good cooperation with the Ukrainian government, including 
occasions when the Ukrainian president has intervened to resolve 
project issues. However, frequent changes in Ukrainian officials have 
made it hard to maintain the continuity of the joint committee and to 
schedule meetings. An EBRD official told us that political and 
institutional instability has had a crucial impact on the progress of 
the project. He said that since 1998 the bank has worked with nine 
Ukrainian ministers involved with Chernobyl, eight vice prime 
ministers, six prime ministers, and an even higher number of deputy 
ministers or officials in charge of the ChNPP.

Complex Project Management Structure:

A second risk to the schedule is the complex nature of the Chernobyl 
Shelter Project's management structure, which has slowed decision 
making.[Footnote 17] There are many organizations that impact the 
project's performance--including the assembly of contributors, EBRD, 
the western contractors, the PMU, ChNPP, as well as Ukrainian 
ministries and regulators. Numerous officials from these organizations 
told us that the multiple organizations involved in the project creates 
a cumbersome structure that has made it difficult to reach timely and 
unanimous agreement on project decisions. From the PMU managing 
director's perspective, although the PMU structure provides EBRD and 
the donors with transparency for shelter fund spending, it involves 
more time-consuming accountability for even minor expenditures than he 
has experienced on other international construction projects. For 
awarding a contract, a series of steps, each of which can take a week 
or longer, must be completed. EBRD must provide nonobjections to the 
PMU on the contract request, on the contractor selection, and for 
signing the contract. In addition, contracts must be approved by the 
ChNPP director, which can also be time consuming. The PMU managing 
director also noted that decision making is also complicated because he 
must obtain concurrence from both EBRD officials and the Chernobyl 
plant director. This can prove difficult because the PMU serves both 
clients and must sometimes resolve contradictory directions from the 
two project participants.

A root cause of the management difficulty we identified is the 
unresolved issue of how much control the PMU should have in managing 
the project on behalf of the ChNPP. In 2002 and 2005, independent 
audits contracted by EBRD concluded that the ChNPP manager's efforts to 
exert greater control over the PMU led to inefficient decision making 
and project delays. Those efforts had negative effects because ChNPP 
management became overly involved in detailed project decisions or 
duplicated PMU reviews before approving decisions. ChNPP officials told 
us that a plant work group was established to review decisions made by 
the PMU. They view this duplication of effort as necessary because the 
decisions prepared by the PMU for the ChNPP director's approval do not 
always reflect the full interests of the plant.

Ukrainian ministerial and ChNPP officials told us they want greater 
control over the PMU--and the shelter project in general--rather than 
having the PMU managed by a western consultant, as is specified under 
the ChNPP's current contract with the consortium of consultants from 
three western companies. A senior official at the Ministry of Emergency 
Situations told us that there were too many western consultants in 
senior management positions in the PMU. He asserted that Ukraine should 
be treated like an equal partner in the project because Ukraine is 
legally responsible for the project and thus ultimately responsible for 
the safety of the site once the shelter is completed.

In contrast, EBRD believes that the current management arrangement 
corresponds with shelter fund agreements and reflects the findings of 
the two management audits, which recommended against more intervention 
by ChNPP management into PMU operations. In EBRD's general model for 
administrating funds, western consultants ensure the PMU has the 
necessary management, procurement, financial, and other skills. EBRD 
has described Ukrainian proposals to assembly members as marginalizing 
the important role of western consultants. However, changes to the PMU 
structure have been made as the result of recommendations in previous 
audits. For example, the co-leadership in all PMU management positions-
-a western consultant and a Ukrainian manager for each position to 
provide training for Ukrainian staff--was discontinued to speed up 
decision making. Currently, about half of the PMU management positions 
are filled by Ukrainian managers developed under the earlier co- 
leadership structure.

In October 2006, the assembly of contributors requested an update of 
the last management audit as a basis for determining whether further 
management improvements are needed. The resulting May 2007 audit report 
did not support ChNPP managers' proposal to restrict western 
consultants' functions to mainly providing advice to ChNPP. Instead, 
the audit recommended that the project should continue to be managed by 
the PMU on behalf of ChNPP and that PMU functions and responsibilities 
should be gradually transferred to Ukrainians as qualified candidates 
are found.

Technical Uncertainties:

The Chernobyl Shelter Project faces a number of technical uncertainties 
associated with constructing a one-of-a-kind structure at a highly 
radioactively contaminated site. These uncertainties could contribute 
to project delays. For example, the new shelter's final design will 
require approval from Ukraine's regulatory agencies, including those 
responsible for regulating nuclear materials and approving construction 
projects. To avoid the delays that have occurred in past reviews, 
Ukrainian law limits the duration of the regulatory review process for 
the new shelter. However, licensing consultant officials who provide 
support services to Ukraine's nuclear regulator under an EBRD grant 
told us that the law requires only a review, and not approval, within 
that duration. If the approval documents are of poor quality, such as 
missing supporting information, or raise technical questions, then the 
review process could be prolonged while the documents are revised and 
resubmitted. Technical questions are particularly possible during the 
review because the contractor may propose alternatives to meet the 
technical requirements of the conceptual design. As a result, the 
shelter's final design could be different from the conceptual design 
that the regulator had already approved. Regulators may then require 
additional time to review and clarify new design issues, which could 
delay the authorization to begin construction on the new shelter.

Moreover, if unexpectedly large amounts of high-level radioactive waste 
are found on site, work could be stalled while removal and storage 
issues are resolved. According to the PMU's managing director, the main 
concern is the amount of radioactive waste that may be uncovered during 
the excavation for the new shelter's foundation. PMU officials report 
that ChNPP is currently expanding its capacity for on- site storage of 
high-level radioactive waste. Nevertheless, if the amount of high-level 
radioactive material discovered during the construction of the new 
shelter is higher than expected, the amount of waste may exceed the 
limited available space for storing this material. According to another 
PMU official, although the ChNPP is responsible for removing and 
storing the high-level radioactive waste, these tasks would have to be 
done in a timely manner in order to allow the new shelter contractor to 
stay on schedule.

Estimated Costs to Complete the Project Are $1.2 Billion and Will 
Likely Increase, and Final Costs Are Uncertain:

As of 2006, the costs to complete the Chernobyl Shelter Project were 
estimated at over $1.2 billion and are likely to increase due to, among 
other things, ongoing project delays. In 1997, a preliminary estimate 
of $758 million was developed that excluded certain cost factors such 
as reserve funds to provide for project uncertainties and risks, as 
well as increased material and labor costs. Final project costs are 
currently difficult to estimate because the most expensive project 
task--the construction of the new shelter--has not started. Officials 
from several donor governments are concerned that the costs of the 
Chernobyl Shelter Project will exceed the current $1.2 billion 
estimate. These concerns are based in part on their experiences with 
other internationally funded construction projects, including ones at 
Chernobyl, that have significantly exceeded original cost estimates.

Cost Estimates to Construct the New Chernobyl Shelter Have Increased 
Since the Initial Estimate:

Current cost estimates to complete the Chernobyl Shelter Project total 
$1.2 billion, which is higher than the preliminary estimate developed 
about 10 years ago. The 1997 project estimate of $758 million was 
prepared by international experts from Ukraine, the United States, 
Europe, and Japan to provide a target amount for the international 
pledging of funds. This estimate was preliminary because many project 
decisions that impact costs, such as the number of stabilization 
measures and the design for the new shelter, were not yet determined. 
This initial estimate also excluded certain cost factors--such as 
reserve funds to cover costs from project uncertainties and risks and 
the escalation of materials and labor prices.[Footnote 18] When the PMU 
estimated the necessary reserve funds in 2003, these cost factors added 
$194 million to the project, bringing the total estimated cost to about 
$1.06 billion. The estimate also rose because some work tasks were 
added or expanded that had not been considered in the 1997 plan, such 
as the removal and replacement of the vent stack adjacent to the 
existing shelter and expanding the PMU's role through the end of the 
project.

The estimate for total project costs was increased to $1.2 billion in 
2006 by the PMU primarily because the estimate had to be reconciled 
with the higher-than-expected bids submitted by the two competing 
contractors in late 2005. The lower of the two bids for the new shelter 
contract--about $505 million--was about $163 million higher than the 
project's 2003 estimate for this work. In responding to contributors' 
requests for an explanation of the increase, EBRD officials said that 
prior cost estimates were based on the best available data at that time.

A PMU cost analysis indicated that the higher-than-expected contractor 
bid was mainly attributable to the effect of price escalations and 
different proposed methods for constructing the shelter. First, the 
analysis indicated that almost half of the $163 million increase was 
due to increases in material, labor, and other costs that had occurred 
between 2003 and mid-2005 or were anticipated through the project's 
completion. In particular, large price increases in steel and Ukrainian 
labor--the latter costs having roughly tripled between 2003 and 2006--
contributed significantly to the increase in estimated costs. Second, 
roughly another $50 million in costs was attributable to construction 
approaches in the bid proposal that were different from those assumed 
in the conceptual design. For example, the bid proposal's approach 
required more expensive construction equipment than had been included 
in the PMU's prior cost estimates. However, the rise in total project 
costs between 2003 and 2006 was moderated by reduced cost estimates for 
some other project tasks, including for stabilizing the existing 
shelter.

According to EBRD and PMU officials, accurately estimating costs is 
difficult because the most expensive component of the project-- 
constructing the new shelter--has not begun. In general, project cost 
estimates become more precise as project designs that define contracted 
activities are finalized, bids from firms competing for the contracts 
are received, and a contract is awarded. As work under the contract 
progresses, the adequacy of reserve funds becomes known, which 
increases the level of certainty in project cost estimates until the 
work and contract are completed and final costs are known. In the case 
of the shelter project, a PMU official told us that completed and 
ongoing contracts account for less than one-third of the estimated 
project costs.[Footnote 19] Consequently, most of the project's 
estimated costs hinge on future contracts. For example, the single most 
expensive future contract is for the final design and construction of 
the new shelter, currently estimated to cost about $505 million based 
on the lower of the two bids.

Even if the Chernobyl shelter construction contract is awarded based on 
this price, the final costs are uncertain because only about half of 
the estimated costs will be associated with a fixed-price contract. 
Under this fixed-price contract, the contractor is generally 
responsible for paying any higher-than-anticipated costs.[Footnote 20] 
For the remaining contracted activities, ChNPP bears some or all of the 
risk for paying for higher-than-anticipated costs through the Chernobyl 
Shelter Fund (CSF). Some of these costs will not be clarified until the 
final design is completed. For instance, the design will finalize 
specifications for the amounts of materials, such as the amount of 
steel and concrete needed for the new shelter and its foundation. 
Further, the final design will specify some types of equipment and 
materials, such as the material used for the new shelter's internal and 
external covering. Pricing for these materials at the time of 
procurement is less certain because, although prices are assumed to 
typically rise over time, the price can be increasing or decreasing at 
any particular time.

Estimates Are Likely to Increase Due to Continued Delays in Awarding 
the New Shelter Contract, and Additional Factors Could Also Increase 
the Costs to Complete the Project:

The current cost estimate of $1.2 billion to complete the Chernobyl 
Shelter Project will likely increase because of the costs of the 
protracted delay in awarding the contract for the new shelter. In late 
2006, a PMU official involved in estimating costs told us that he was 
fairly confident that the cost estimate of $1.2 billion would be 
sufficient to complete the project because it included reserve funds of 
$161 million. He expected these reserve funds would provide a 
sufficient buffer against the cost impacts of project uncertainties and 
escalating prices for materials and labor. Around that time, EBRD 
notified CSF contributors that costs were increasing with each day the 
construction contract was delayed. The bank indicated, however, that 
the delay had not yet affected the project's cost estimate, but the 
available reserve funds were being eroded. The same PMU official told 
us in March 2007 that, based on the protracted delay, the total 
project's cost estimate would likely need to be increased by tens of 
millions of dollars.

Also according to this PMU official, when the total cost estimate is 
revised after the new shelter contract is awarded, it will likely 
increase for the following three reasons:

* First, tens of millions of dollars will likely be needed to adjust 
the contract costs for price escalations that have occurred. The 
contracting process for the new shelter allows for adjusting costs to 
account for changing prices of materials, fuel, and labor, and those 
prices must be updated from the time of the bid submission in late 2005 
to the time of contract award, expected in 2007.

* Second, the delay means a longer, and therefore a more costly, 
operation period for the PMU. For example, the western consultants in 
the PMU have been maintaining their staffing level recently in 
anticipation of the new shelter contract being awarded. This staffing 
level costs about $1 million per month.

* Third, the delay in awarding the new shelter contract also delays 
other future project contracts and thereby raises their costs. 
Specifically, contracts totaling an estimated $59 million, which are 
primarily to support the deconstruction of the existing shelter after 
the new shelter is in place, will probably be delayed. According to the 
PMU official, delays are typically assumed to increase the estimated 
costs at an escalation rate of about 3 percent per year.

Furthermore, a number of risk factors could increase the costs of the 
Chernobyl Shelter Project. Many of these factors were identified by 
donors to the shelter fund and PMU officials. Whether these factors 
will result in increased project cost increases depends on whether the 
revised estimate contains sufficient reserve funds. For example, a 2005 
analysis by the PMU estimated the most likely costs of almost twenty 
risks and uncertainties for the new shelter's design and construction, 
which resulted in adding reserves of $51 million to the current 
estimate. However, these risk estimates are based on experts' opinion 
of probable outcomes and can vary significantly from the project's 
actual experience.

The adequacy of the reserve funds also depends upon PMU officials' 
ability to successfully mitigate the cost impacts of these project 
uncertainties. PMU officials said they have a mitigation plan for 
identified risks. A former PMU official told us the amount of cost 
increases that could potentially be prevented could vary widely--from 
zero to perhaps $100 million, depending upon the PMU's ability to 
mitigate the risk. Mitigating project risks could be challenging, 
particularly for potential events that are outside of the PMU's direct 
control. For example, according to a PMU official, if Ukraine revises 
regulations to require the new shelter to meet higher earthquake or 
tornado standards, then the amount of steel required for the new 
shelter--and the associated costs--would increase.

Other possible risks that could increase project costs identified by 
CSF contributors and PMU officials include the following:

* Delays may occur in Ukrainian regulatory approval of the new shelter 
design.

* The price of steel, fuel, or labor might escalate faster than 
anticipated.

* The needed Ukrainian labor force may not be available in sufficient 
numbers. Past medical screening for workers in high radiation areas 
found about half were not in acceptable health due to smoking, bad 
diet, ulcers, or other medical reasons. Also, ChNPP will have to find 
additional dosimetrists, who measure radiation levels, for the 
construction of the new shelter.

* The Ukrainian labor force may not be available at the costs 
anticipated. PMU officials said the project has to pay premium wages to 
attract construction workers to the Chernobyl site because the workers 
prefer to work elsewhere and a building boom in Ukraine has heightened 
competition for workers with other employers.

* The contaminated site exacerbates the question of whether a 
sufficient number of qualified workers can be found. Workers at 
Chernobyl must be replaced when they reach an annual radiation exposure 
limit, as specified by radiation safety standards. Also, more workers 
than anticipated might be needed if a partial collapse of the existing 
shelter were to increase the level of radioactive contamination level 
at the site.

* Safety infractions by workers could delay the project. In 2005, for 
example, work was stopped when some workers were found to have internal 
radioactive contamination because they were breaking safety rules, such 
as smoking and eating in contaminated areas.

* Transporting about 1,500 workers to Chernobyl and processing their 
access to the work site could create possible choke points that could 
potentially delay work.

In addition, other risks and uncertainties associated with the 
Chernobyl shelter, although beyond the scope of the current project, 
could have long-term technical and cost implications. Specifically, 
while Ukraine has responsibility for remediating the large quantity of 
radioactive waste inside the destroyed reactor and maintaining the 
site, it is unclear whether Ukraine has the resources to complete these 
tasks. In the course of our technical evaluation of the Chernobyl 
Shelter Project, we identified several activities that will have to be 
addressed in the future--either by Ukraine or with continuing 
assistance from other countries. Specifically, we found the following:

* The planned new shelter is just one part of an overall effort to make 
the Chernobyl reactor site environmentally safe. The existing shelter 
and the remains of the destroyed reactor must be dismantled and 
decommissioned. Radioactive waste from the site will need to be placed 
in both high-level and low-level storage locations. Until these 
facilities are built with sufficient capacity, waste--both liquid and 
solid--will have to be kept within the confines of the new shelter once 
it has been completed.

* Ukraine will be responsible for dismantling the shelter. However, the 
final design for the actual process for dismantling the existing 
shelter is not complete. Furthermore, processes for keeping the 
radioactive dust stable while the existing shelter is being dismantled 
and limiting the impact of removing the roof of the existing shelter, 
including possible radiation exposure, are only conceptual in nature. 
Ukrainian experts told us they are concerned that removing the roof 
could be risky in terms of the possible contamination levels present at 
the time. These experts also noted that the technical challenges they 
may face are not well known and the costs of completing this task 
cannot be well quantified at this time.

* Although dismantling the existing shelter will remove the important 
risk of the shelter collapsing, without a plan for dismantling and 
removing the waste from the site, the risk of collapse and release of 
radioactive materials will pass to the new shelter, which will be 
constructed to confine--not contain--radioactive material. The new 
shelter is designed to confine dust and keep the weather out, but it 
will not serve as a radiation shield.

The international commitment to Chernobyl may not end with the 
completion of the new shelter, and expansions of the project's scope 
could be costly. For example, two donor officials noted that Ukraine 
has regularly raised the issue of assistance in removing the 
radioactive fuel within the shelter. This task is not within the 
shelter project's scope, although the new shelter is intended to 
facilitate Ukraine's ability to remove it in the future. A 1996 study 
sponsored by the European Commission indicated that removing the 
radioactive fuel could increase estimated project costs by about 45 
percent to 100 percent. In commenting on a draft of this report, State 
indicated its consistent position has been that the United States would 
not agree to a scope expansion for the Chernobyl Shelter Project.

In addition, although Ukraine has agreed to fund the deconstruction of 
the existing shelter, the donors are responsible for funding the 
deconstruction design, equipment, and a radiological waste processing 
building as part of the Chernobyl Shelter Project. However, the 
undetermined scope of the deconstruction effort impacts the needed size 
and cost of the radiological waste processing facility for packaging 
the radioactive waste. Furthermore, there is a potential that 
additional stabilization measures for the existing shelter will have to 
be undertaken, which would raise costs. The Ukrainian regulatory agency 
approved the limited number of stabilization measures subject to the 
understanding that the new shelter would be completed on schedule, and 
therefore future delays in schedule may create the need to implement 
additional stabilization measures.

Other Internationally Funded Construction Projects Have Experienced 
Significant Cost Overruns:

Officials from the United States, the European Commission, the United 
Kingdom, and Ukraine expressed concerns that the Chernobyl Shelter 
Project could follow the path of other internationally funded 
construction projects, including ones at Chernobyl, that experienced 
significant cost overruns. For example, a European Commission official 
told us it is common knowledge that all large-scale construction 
projects cost more than their original estimates. A United Kingdom 
official said he could not remember an internationally funded project 
that was completed under budget. Our own work in the area of large- 
scale construction projects bears out these concerns. For example, we 
have reported on the following recent instances of projects that have 
significantly exceeded cost estimates and experienced schedule delays 
and other construction-related problems:[Footnote 21]

² In 2004, we found that DOE estimates to build fossil fuel plants in 
Russia to replace aging and unsafe plutonium production reactors were 
likely to significantly exceed original cost estimates, possibly by 
over $500 million.

* The United States has had difficulties with past major construction 
projects in Russia, such as the Chemical Weapons Disposal Facility at 
Shchuch'ye. Further, many of these projects have experienced dramatic 
cost increases, significant delays, or other major setbacks. At 
Shchuch'ye, for example, the estimated cost for the project increased 
from about $750 million to over $1 billion.

² DOE's costs to finish the partially constructed Chernobyl heat plant, 
which was needed to supply space heat to facilities to support the 
decommissioning of the other Chernobyl reactors, rose significantly. In 
1997, based on a cost estimate from an earlier European Commission- 
sponsored study, DOE signed a cost-sharing agreement with Ukraine to 
complete the construction of the heat plant. The cost-sharing agreement 
stipulated that the United States would provide a maximum of $10.5 
million to support the project. Subsequently, DOE found it necessary to 
conduct extensive project assessments to better estimate the total 
project's cost. Based on the assessments, DOE estimated the U.S. share 
of the heat plant project to be $29 million to $30 million--rather than 
the $10.5 million in the original agreement. Final U.S. costs were 
$32.5 million when the project was completed in 2001. According to the 
Pacific Northwest National Laboratory, which served as the project 
manager for the heat plant, its team had to overcome tremendous 
challenges to minimize schedule slippages and contain costs. The 
challenges included delays in design approvals by various Ukrainian 
agencies, delays in the purchase and delivery of various plant 
components, and less than aggressive support for the schedule by ChNPP.

Ukrainian officials' concern with cost overruns is based on their 
conclusions about problems with internationally funded projects at 
Chernobyl. According to the ChNPP director, the Ministry of Emergency 
Situations tasked him with identifying and eradicating the root causes 
of the cost overruns and schedule delays occurring with all of the 
Chernobyl projects. In addition to the shelter project, his subsequent 
analysis covered three ongoing internationally funded projects that 
support the decommissioning of reactor units one, two, and three. Table 
1 indicates the international funding and purposes of the three other 
projects, as well as the ChNPP director's data on schedule delays and 
cost increases.

Table 1: ChNPP Director's Analysis of Schedule Delays and Cost 
Increases for Other Internationally Funded Construction Projects at 
Chernobyl, as of October 2006:

Project: Interim spent fuel storage facility; 
Source of international funding: Nuclear Safety Account administered by 
EBRD; 
Project's purpose: To decommission reactor units one through three, 
spent nuclear fuel must be removed from them. The interim spent fuel 
storage facility provides a place to prepare the removed fuel 
assemblies for storage and store them for up to 100 years; 
Initial completion date (current estimated date): 2003; (no earlier 
than 2010); 
Increase from initial cost estimate to current cost: 39 percent[A]: 
($85 million to $113 million; additional $150 million to $200 million 
may be needed to complete project);

Project: Liquid radioactive waste treatment plant; 
Source of international funding: Nuclear Safety Account administered by 
EBRD; 
Project's purpose: To support decommissioning, this plant is intended 
to process liquid radioactive waste currently stored at Chernobyl. The 
processing prepares the liquid for storage by transforming it into 
solid waste; 
Initial completion date (current estimated date): 2001 (2008); 
Increase from initial cost estimate to current cost: 87 percent: ($22 
million to 42 million);

Project: Industrial complex for solid radioactive waste management; 
Source of international funding: Program through the European 
Commission; 
Project's purpose: Also to support decommissioning, this complex will 
serve to manage solid waste generated by reactor operations, such as 
radioactively contaminated metal, concrete, plastic, wood, and paper. 
It will include a solid waste retrieval facility, a solid waste 
processing plant, and a repository for the disposal of short-lived 
radioactive waste; 
Initial completion date (current estimated date): 2004 (2008); 
Increase from initial cost estimate to current cost: 44 percent: ($42 
million to $61 million);

Source: ChNPP.

[A] This contract included both dollars and euros amounts. When we 
calculated it in only dollars using a 2006 exchange rate, the increase 
was 33 percent rather than the 39 percent indicated by the director's 
analysis. The differences may reflect the use of different exchange 
rates, which fluctuate over time.

[End of table]

The ChNPP director concluded that these projects shared a common flaw 
that led to delays and cost overruns--a contract combining design and 
construction. He said this type of contract can result in a project 
proceeding to construction with a faulty design that results in costly 
changes during construction. Another ChNPP official, who had served as 
the deputy project manager for the interim spent fuel storage project, 
told us that a French company did not staff the project with the needed 
experts to design the spent fuel storage facility. Moreover, to save 
time and costs, building was begun before a final design was 
completed.[Footnote 22] When the ChNPP officials questioned this 
strategy, the contractor replied that they should not be concerned 
because under the design and construct contract, the contractor had 
ultimate responsibility for the project's success. Although ChNPP 
officials were not provided with final design documents to review, they 
finally recognized design deficits in the facility being constructed. 
The contractor had designed the facility to hold mock fresh fuel rather 
than real spent fuel, which takes on different dimensions during use.

As a result of the design flaws built into the interim spent fuel 
storage facility, the project's estimated costs were about $28 million 
over its original budget when physical work was suspended in 2003. The 
facility--for which about $96 million has already been spent--is still 
not operational. According to the ChNPP director, another $150 million 
to $200 million is needed to modify or completely rebuild the facility. 
Figure 5 shows the incomplete spent fuel storage facility at Chernobyl.

Figure 5: The Interim Spent Fuel Storage Facility at Chernobyl:

[See PDF for image]

Source: GAO.

[End of figure]

The Chernobyl director told us he is concerned that the construction of 
the new shelter will experience the same cost increases and delays as 
the other Chernobyl projects. One reason for his concern is that the 
new shelter contract combines design and construction, as did the 
contracts for the other three projects. Moreover, he stated that some 
companies in the Novarka consortium are the same companies that failed 
to complete the other Chernobyl projects on time and within budget.

Although they acknowledge that the interim spent fuel storage facility 
project suffered from technical design flaws, insufficient project 
oversight, and rising costs, EBRD and PMU officials told us the new 
shelter contract was structured to avoid repeating these problems. 
According to the PMU managing director, the bidding consortiums have 
the technical capacity to successfully complete the project. The 
proposal evaluation committee reviewed qualifications and designated 
both bidding consortiums as technically qualified to fulfill the 
contract. Moreover, despite combining design and construction tasks, 
the new shelter contract requires the contractor to provide the full 
scope of the design before construction begins, with the exception of 
some site preparation. ChNPP officials will review the design and 
either give preliminary approval or require it to be revised. After the 
ChNPP officials preliminarily accept the design, it will be sent to the 
Ukrainian regulators to determine whether it is compliant with 
Ukrainian laws, rules, and regulations. Only after the regulators 
authorize construction will ChNPP officials give approval to start 
construction. In addition, the contract includes some incentives for 
the contractor to minimize the new shelter's costs, such as optimizing 
the design to limit the amount of needed steel and concrete.

State Has No Direct Management Responsibilities for the Chernobyl 
Shelter Project but Has Played a Key Role in Providing Funding:

State, which is the lead U.S. government agency for the Chernobyl 
Shelter Project, has no formal role in directly managing the project. 
In addition, State's ability to control the project's activities is 
restricted because all major decisions must be based on a consensus of 
the assembly of contributors. However, State has had a key role in 
funding the project, which may be more difficult in the future. 
Appropriations to the FREEDOM Support Act, which provide U.S. funding 
for the project, have been decreasing, and current pledges from all 
donor governments and interest earned on the CSF are insufficient to 
cover the current estimated cost of $1.2 billion. As a result, an 
additional request for funding by the donors is likely. Because some 
donor governments are not expected to increase their pledges beyond 
what they have already provided, the United States and other donors 
might be asked to contribute an even larger share of funds in the 
future. Even though costs have been increasing and the project is 
experiencing delays, State has not reported detailed information about 
the project's status and cost estimates to Congress.

The State Department Relies on EBRD to Oversee and Manage the Project:

State does not have a direct management or oversight role on the 
project and, similar to other contributors, depends on EBRD to oversee 
and manage the CSF. State's role is defined by the international 
structure of the project that was agreed to by the donors at the 
beginning of the project. Responsibility for administering and 
overseeing the CSF was assigned to the EBRD in 1997 by the donors, 
limiting the United States and other donors' role. EBRD oversees and 
manages the project, as specified in bank rules for the CSF and bank 
agreements with Ukraine and ChNPP. Although the PMU has overall 
responsibility for day-to-day project management, the PMU regularly 
reports to EBRD on project progress and seeks its nonobjection for any 
decision or change that might impact the project's cost or schedule.

Although State does not directly oversee and manage the project, the 
agency seeks to exert influence, to the extent possible, as the lead 
U.S. representative to the assembly of contributors. The assembly is 
the formal interface between donor governments and the EBRD and 
provides the forum for receiving official updates on the status of the 
project and the CSF. The assembly also provides approval for contract 
awards, major funding allocations and transfers, and any changes to the 
CSF structure and rules. However, despite State's efforts, the assembly 
structure makes it difficult for State to exert greater control 
because, among other things, a consensus of the voting assembly members 
is required for all major decisions.

State also seeks to address Chernobyl shelter issues by monitoring 
developments that affect the project and works closely with the EBRD 
and other donor governments to try to anticipate and resolve issues 
affecting project performance. For example, State officials told us 
they provided critical leadership for encouraging donor support during 
the 2005 pledging event, and continue to work closely with EBRD and the 
other G-7 governments to support the project.

A key aspect of State's role is to support the allocation of U.S. funds 
to the CSF.[Footnote 23] These funds are provided as a grant and do not 
contain any conditions on their use. The CSF rules prohibit donors from 
specifying how their governments' payments will be spent on the 
project. As a result, donor governments rely on EBRD to monitor project 
expenditures and ensure that the funds are used to support legitimate 
project objectives. In the view of State officials, the Chernobyl 
Shelter Project does not differ from other multilateral nuclear safety 
projects administered by EBRD. For example, State also donates funds to 
the multilateral nuclear safety account that provides funding to 
improve the safety of Soviet-designed nuclear reactors. That account is 
also administered by EBRD, and State officials told us they cannot 
place specific conditions on the use of the funds it provides. However, 
State officials told us that establishing benchmarks that would link 
any additional pledging of funds to specific progress in meeting the 
project's performance goals would be a useful management tool. They 
also noted that the other major donor governments would have to concur 
and cooperate with such an approach for it to be successful.

Despite these limitations on its formal role in the project, State, in 
concert with the U.S. Embassy in Kyiv, has taken steps to try to keep 
the Chernobyl project moving forward. The U.S. Embassy plays a critical 
role in monitoring the SIP progress and takes a lead in working with 
the other major donor countries' embassies to engage Ukrainian 
officials in resolving project issues. Additionally, within the 
assembly of donors, State took the lead in identifying a strategy to 
mediate an impasse between EBRD and Ukraine over the next steps in 
awarding the contract for the new shelter. Specifically, at an October 
2006 assembly meeting, State proposed the participation of four 
observers, including one selected by Ukraine, to monitor contract 
negotiations between the PMU and the Novarka consortium. This strategy, 
which was adopted by the assembly, was designed to allow the 
contracting process to proceed in accordance with EBRD procurement 
rules, while encouraging greater Ukrainian trust in the process and 
acceptance of its outcome.

Additional U.S. Funding Will Likely Be Requested to Complete the 
Project:

Additional U.S. funding will likely be requested for completing the 
Chernobyl Shelter Project because of an existing funding shortfall and 
the likelihood of continued cost increases. According to a PMU analysis 
in late 2006, a funding gap of about $190 million existed between the 
total amount pledged by donors and the current $1.2 billion estimate to 
complete the Chernobyl Shelter Project. Furthermore, the estimated gap 
could change markedly because of the uncertainties in both the 
project's estimated final costs and the available CSF funds, according 
to EBRD and PMU officials.[Footnote 24]

Typically, the donors have committed additional funding through formal 
funding conferences. To date, there have been three such conferences, 
and the United States has pledged funds at all three of these 
conferences. Table 2 shows the amounts pledged by the United States 
since the inception of the Chernobyl Shelter Project.

Table 2: U.S. Pledges to the Chernobyl Shelter Project:

Year: 1997; 
Pledge amount (millions): $78.

Year: 2000; 
Pledge amount (millions): $80.

Year: 2005; 
Pledge amount (millions): $45.

Year: Total; Pledge amount (millions): $203.

Source: State Department.

[End of table]

² Regardless of the potential amount of additional funding needed to 
complete the project, the share of funding that will be requested from 
the United States and other donors will likely increase because some 
donors will not make any additional contributions. According to State, 
United Kingdom, and European Commission officials, donor 
representatives face a difficult task justifying to their governments 
further contributions because of the ongoing delays in awarding the new 
shelter contract, the lack of visible progress on the new shelter, and 
the lack of a firm estimate for project costs.

² Officials from State and the United Kingdom also told us that they 
anticipate many donors may not have the resources--or may no longer be 
willing--to provide additional funds. Assuming the past patterns of 
donations shown in figure 6, the loss of funds from some or all the 21 
governments with smaller shares of the contributions could reduce 
donations of additional funds up to 12 percent. If some G-7 countries 
or the European Commission also decide not to provide additional 
funding, then some of the remaining donors would have to provide 
contributions at a significantly higher level than their historic 
share. The signers of the 1995 memorandum of understanding regarding 
Chernobyl--the G-7 countries (the United States, Canada, Japan, France, 
Germany, Italy, and the United Kingdom), the European Commission, and 
Ukraine--have provided the bulk, about 88 percent, of the total funding 
for the Chernobyl Shelter Project. More specific data on the 
percentages of donor governments' contributions can be found in 
appendix III.

Figure 6: Chernobyl Project Contribution Agreements from the European 
Commission, United States, other G-7 countries, Ukraine, and 21 other 
countries, as of September 2006:

[See PDF for image]

Source: EBRD

Notes: Ukraine's contribution includes both cash and in-kind 
contributions. Percentages do not total to 100 because of rounding.

[End of figure]

Officials from State and the United Kingdom told us that donors might 
agree to provide additional funds if the prospects of the project's 
successful completion appear more certain. According to a United 
Kingdom official, his country would likely be willing to pledge more 
money, but only when (1) it has confidence in the project's cost 
estimates, which will not likely occur until the final design of the 
new shelter is complete; and (2) it can expect its contribution to be 
part of an international effort to pledge more. Similarly, a State 
official told us that additional funding would be easier to justify if 
the project was almost complete and only a small amount of additional 
funding were needed.

Ultimately, political considerations may play a large part in donor 
governments' decisions, including the United States', on whether to 
continue funding the project. For example, according to a United 
Kingdom official, donor governments want to avoid the negative 
political attention from not assisting Ukraine in completing this 
project. Further, he said that withdrawing support would be difficult 
for some governments whose support is part of a broader foreign policy 
objective.

Decreasing FREEDOM Support Act Funding Could Impact Future U.S. 
Contributions to the Chernobyl Shelter Project:

To date, the United States has pledged $203 million to the CSF and has 
contributed about $154 million ($169 million adjusted for inflation) 
through 2006.[Footnote 25] State officials currently plan to allocate 
about $20 million for each of fiscal years of 2007 and 2008 and $9 
million for fiscal year 2009 to fulfill the remaining $49 million of 
the total $203 million U.S. commitment. These payments of $49 million 
may require State to reduce funding to other programs supported by the 
FREEDOM Support Act because funding under the act has been decreasing. 
Under the FREEDOM Support Act, State divides appropriations among many 
programs--including efforts to halt the proliferation of nuclear, 
biological, and chemical weapons--across the 12 countries covered by 
the law, including Ukraine. Further, according to State's foreign 
assistance coordinator for Ukraine, there is no alternative funding 
source for CSF other than the FREEDOM Support Act.

² According to State officials, if the FREEDOM Support Act funds 
continue to decline and if additional pledges beyond the $203 million 
are requested, the United States could face three difficult funding 
options:

² Maintain Chernobyl Shelter Project funding using a larger proportion 
of the declining FREEDOM Support Act funds.

* Identify another funding stream. According to State officials, since 
they have not been able to identify any alternative existing fund 
source, State might have to approach Congress for a stand-alone 
appropriation to provide the funds.

* Determine that the United States will provide no further 
contributions beyond the $203 million pledged.

Since State may need to approach Congress for additional funding, 
Congress will need more information than currently provided. State does 
not provide Congress with detailed information on the project or its 
financial requirements. State officials told us the department does not 
notify Congress before pledging additional funds to the project but 
makes all pledges subject to the availability of funds through the 
congressional appropriations process. State does provide Congress with 
a brief statement about its continuing financial support for the 
shelter project in its annual congressional budget justification for 
foreign assistance. For example, State's budget request documents for 
fiscal year 2007 state that a higher proportion of FREEDOM Support Act 
funds in fiscal year 2007 will go to the Chernobyl Shelter Project. 
Although USAID provides Congress with more detailed background and 
status information, its congressional notification memo is for the 
purpose of initiating a payment to the Chernobyl Shelter Fund and not 
for the purpose of identifying appropriation needs.

Conclusions:

In our view, it is in the interest of all the major participants 
involved--including the United States--to see the Chernobyl Shelter 
Project completed as soon as possible. However, tensions--particularly 
between Ukrainian officials and EBRD representatives, and over the 
project's lack of progress, its potentially higher costs, and 
management difficulties--could result in further delays or even, in a 
worst case-scenario, the termination of the project. Therefore, it is 
incumbent upon all of the major participants to find a cooperative and 
constructive path forward. Failure to advance this project--given the 
condition of the existing shelter and the significant financial 
investment made by the United States and others--is neither desirable 
nor acceptable. We believe the United States--as the largest single- 
country donor to the project--has an important role to play in 
determining the outcome of the project. However, the U.S. financial 
commitment should not be open ended. Thus far, the United States has 
not placed conditions on the contributions made to the Chernobyl 
Shelter Fund--that is, specific benchmarks tied to tangible progress 
toward project completion--and it has not placed any caps or 
limitations on future funding levels. In our view, without a set of 
benchmarks linked to clearly defined project outcomes, the chances for 
project success are diminished and the United States is left without a 
clear idea of when, and at what cost, the Chernobyl shelter will be 
completed.

We are also concerned that donors' confidence in the cost estimates 
must be raised to ensure continued international support. Validations 
of major cost estimate revisions would be one way to increase the 
transparency of these estimates and donors' confidence in them. While 
we do not question the expertise of the analyses that have been done so 
far, it would seem reasonable to enlist the support of another 
organization--outside the Chernobyl management structure--to undertake 
an independent review. Given that EBRD has already contracted with 
outside audit groups to review project management issues, there is 
adequate precedent to pursue a similar course with respect to future 
cost revisions.

For over a decade, the United States has shown a strong financial 
commitment to completing the Chernobyl Shelter Project. However, total 
funds pledged are insufficient to meet the project's current cost 
estimates. Further, if additional money is needed--beyond the current 
$1.2 billion forecast to complete the project--State may need to find 
additional funding because funds provided by the FREEDOM Support Act 
have been diminishing. Moreover, the need to rely on additional U.S. 
funding to meet future shelter commitments may be exacerbated because 
of the uncertainties surrounding continued financial support from other 
donors. At the same time, the United States should consider the limits 
to its commitment if the project does not show significant progress and 
becomes excessively expensive. Assessing the project's progress and 
total costs will be important before committing additional funds beyond 
those already pledged, particularly after a more precise estimate of 
total costs is developed following the completion of the final new 
shelter design. As the project moves into the most expensive single 
task of constructing the new shelter, legitimate concerns about further 
schedule delays, cost increases, and funding gaps means that State 
needs to provide more accountability and transparency over U.S. 
contributions. To date, the information that State provides to Congress 
does not give a full accounting of the status of the project, including 
potential cost increases and delays. Since State may need to approach 
Congress for additional funding, Congress will need more information 
than currently provided through the department's annual congressional 
budget justification for foreign assistance.

Recommendations for Executive Action:

To help ensure that the United States has a clear and consistent 
strategy--as well as a sound basis for continuing to support the 
Chernobyl Shelter Project--we recommend the Secretary of State, working 
in consultation with other contributors and EBRD, consider the 
following four actions:

² Establish specific performance benchmarks for the project that need 
to be met before additional pledges of funds are made in the future.

² Periodically review and revise the benchmarks to ensure they are 
relevant and applicable to the project's performance goals and time 
frames.

² Obtain an independent validation of major revisions to cost estimates.

² Develop a contingency strategy for obtaining the additional funding 
that may be needed to complete the project. The strategy should include 
encouraging other major donor countries and the European Commission to 
also contribute additional funding.

Furthermore, to increase State's accountability and transparency for 
funding the project, the Secretary of State should provide a detailed 
annual report to Congress about the status of the project, including 
project costs, project milestones, and estimated completion dates.

Agency Comments and Our Evaluation:

We provided the Department of State and the U.S. Agency for 
International Development (USAID) with draft copies of this report for 
their review and comment. State's comments are presented as appendix IV 
and USAID's are presented as appendix V.

In their written comments, both State and USAID generally agreed with 
the draft report. Specifically, State noted that it provided useful 
insights into the complex history and management of the Chernobyl 
Shelter Project and acknowledged that devising a plan to meet a certain 
funding shortfall was needed. Furthermore, State generally agreed with 
our recommendations to help ensure that the United States has a clear 
and consistent strategy and a sound basis for continuing to support the 
Chernobyl Shelter Project. USAID concurred with our analysis that the 
project has experienced significant delays and may face potential cost 
increases.

However, both State and USAID raised some concerns about our 
recommendation that State--working in consultation with other 
contributors and the European Bank for Reconstruction and Development-
-establish specific benchmarks for the project that need to be met 
before additional funds are made available for the project. Both 
agencies asserted that linking the availability of additional funds to 
specific performance benchmarks requires careful consideration because 
it could lead to further project delays or increase costs. While 
recognizing that benchmarks could provide a useful management tool, 
State also noted that that the United States and other donors would 
need to evaluate whether the benefits offset the potential negative 
impacts. In addition, USAID asserted that our recommendation did not 
clearly identify which funds would be subject to the benchmarks.

We strongly believe that our recommendations regarding the 
establishment of performance benchmarks are prudent given the over 10- 
year history of the Chernobyl Shelter Project that has been marked by 
significant project delays and cost increases. In our view, performance 
benchmarks would introduce additional rigor and discipline into the 
Chernobyl Shelter Project, which can only help improve the project's 
chances of success and reinforce contractor-related project milestones 
and schedules. We agree, however, with USAID's point that our 
recommendation should more clearly identify which funds should be 
subject to performance benchmarks. We have clarified the recommendation 
to indicate that additional pledges in the future should be benchmarked.

Although State concurred with our recommendation to obtain an 
independent validation of major revisions to cost estimates, it 
asserted that that the United States and other donors would need to 
determine if the benefits of this validation offset the potential 
delays and increased costs. We believe that an independent cost 
validation could strengthen donors' confidence that the project costs 
are realistic and achievable.

Although State agreed with our recommendation to provide a detailed 
report to the Congress about the status of the Chernobyl Shelter 
Project, it asserted that a two year reporting requirement--rather than 
an annual cycle--should be implemented. We believe that the Congress 
needs timely information about the project and think that an annual 
report would be the most appropriate mechanism to achieve this.

Finally, State provided two technical points in its written comments. 
First, State indicated its consistent position that the United States 
would not agree to a scope expansion for the Chernobyl Shelter Project. 
We have incorporated language in our report to reflect State's 
position. Second, State disputes our statement that the U.S. government 
costs for the Chernobyl heat plant rose significantly. As we note in 
the report, DOE entered into this initial agreement with Ukraine for a 
maximum U.S. contribution of $10.5 million. The final U.S. cost for the 
project totaled $32.5 million--a significant increase from the initial 
estimate.

As agreed with your office, 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 
Secretary of State, the Acting Administrator of the Agency for 
International Development, interested congressional committees, and 
other interested parties. We will also make copies available to others 
on request. In addition, the report will be available at no charge on 
the GAO Web site at http://www.gao.gov.

If you or your staff 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 VI.

Sincerely yours, 

Signed by: 

Gene Aloise 
Director, Natural Resources and Environment:

[End of section]

Appendix I: An Analysis of the Chernobyl Nuclear Power Plant Accident;

This appendix provides technical information about the root causes and 
impacts of the Chernobyl Nuclear Power Plant (ChNPP) accident that 
occurred in April 1986.

There is little controversy as to whether the accident at the unit four 
reactor of the Chernobyl Nuclear Power Plant on April 26, 1986, still 
stands as the worst nuclear accident in history. The exact reasons for 
the accident may not ever be fully known, as the primary source of 
evidence--the reactor itself--was destroyed, and the remaining evidence 
is still being interpreted. However, the failures that led to the 
explosion and resulting fire at the ChNPP unit four reactor fall into 
two categories: (1) system design weaknesses and (2) the numerous 
overrides of safety systems and violations of both written protocols 
and general principles, such as not operating a reactor outside of its 
licensed design parameters. Ironically, the accident at Chernobyl 
occurred outside normal operation of the reactor during a test designed 
to assess the reactor's safety margin in the event of a loss of 
electricity from the external power grid. The test protocol required 
less than full reactor power and was scheduled just prior to a routine 
shutdown of the reactor.

Nuclear Reactors:

In most electric power plants, water is heated and converted into 
steam, which drives a turbine-generator to produce electricity. Fossil- 
fueled power plants produce heat by burning coal, oil, or natural gas. 
In a nuclear power plant, the fission[Footnote 26] of uranium[Footnote 
27] atoms in the reactor provides the heat to produce steam for 
generating electricity.

Several commercial reactor designs are currently in use in the United 
States. The most widely used design consists of a heavy steel pressure 
vessel surrounding a reactor core.[Footnote 28] The reactor core 
contains the uranium fuel.[Footnote 29] The fuel is in the form of 
cylindrical ceramic pellets about one-half inch in diameter that are 
sealed in long metal rods called fuel rods. The rods are arranged in 
groups to make a fuel assembly. A group of fuel assemblies forms the 
core of the reactor.

Heat is produced in a nuclear reactor when neutrons[Footnote 30] strike 
uranium atoms and cause them to fission in a continuous chain 
reaction.[Footnote 31] Control elements[Footnote 32] made of materials 
that absorb neutrons, are placed among the fuel assemblies. When the 
control rods are pulled out of the core, more neutrons are available 
and the chain reaction speeds up, producing more heat. When they are 
inserted into the core, more neutrons are absorbed, and the chain 
reaction slows or stops, reducing the heat.

Most commercial nuclear reactors in the United States use ordinary 
water to slow down, or "moderate," the neutrons that maintain the 
fission process. These are called light water reactors. In this type of 
reactor, the chain reaction will not occur without the water to serve 
as a moderator. The water also serves to remove the heat created by the 
fission process. In the United States, two different light water 
reactor designs are currently in use, the Pressurized Water 
Reactor[Footnote 33] and the Boiling Water Reactor.[Footnote 34]

The nuclear fission reactors used in the United States for electric 
power production are classified as "light water reactors" in contrast 
to the "heavy water reactors" used in Canada. Light water (ordinary 
water) is used as the moderator in U.S. reactors as well as the cooling 
agent and the means by which heat is removed to produce steam for 
turning the turbines of the electric generators. The use of ordinary 
water makes it necessary to do a certain amount of enrichment of the 
uranium fuel before the necessary criticality of the reactor can be 
maintained.

The Reactor Design:

The ChNPP unit four reactor is a Soviet-designed RBMK (reactor bolshoy 
moshchnosty kanalny, or in English, high-power channel reactor). The 
RBMK is a pressurized water reactor with individual fuel channels that 
uses ordinary water (as opposed to heavy water) as its coolant and 
solid graphite (a form of carbon), a very pure form of the same 
graphite found in pencils, as its moderator. Its design is derived from 
the original reactor design of Enrico Fermi that initiated the first 
sustained and controlled nuclear fission chain reaction under Stagg 
Field at the University of Chicago on December 2, 1942. This use of a 
graphite moderator and water coolant is found in no other nuclear power 
reactors and makes the reactor unstable at low power levels, which 
greatly contributed to the unit four accident.

The RBMK reactors were favored by the former Soviet Union primarily 
because, in addition to producing both power (electricity and heat) and 
plutonium (as do all thermal fission reactors that have U-238 in their 
fuel matrix), they were able to be refueled while the reactor was still 
running and not shutdown. This ability was important to the Soviet 
Union's national security.

Fission reactors, including the RBMK at Chernobyl, contain fuel rods. 
Unit four at Chernobyl used zircaloy tubes 3.65 meters long filled with 
pellets of enriched uranium (U-235) oxide. The fuel rods were combined 
into cylindrical assemblies (10 meters long) in a carriage, 2 sets of 
18 rods per assembly. To allow the reactor to be refueled while still 
operating, the assemblies could be physically put in and taken out of 
the reactor by a mechanical lift. These assemblies were in individual 
fuel channels, cooled by the pressurized water. The channels were 
within graphite blocks, which acted as the moderator. A moderator slows 
down fission neutrons, thereby allowing the fission chain reaction to 
continue. Also, mixed helium and nitrogen gas increased the graphite's 
heat transfer. Boron carbide control rods, which also absorb neutrons, 
were inserted into the core to (1) control the rate of fission; (2) 
maintain an even distribution of energy across the entire reactor; and 
(3) allow automatic, manual, and emergency control. Detectors inside 
the core monitored for any deviation from the reactor's normal 
operations and would indicate whether the control rods should be 
engaged to reduce or stop the fission reaction. Some of the control 
rods would always be engaged during normal reactor operations. The 
entire reactor core is housed in the concrete reactor vessel that 
served as a radiation shield and had a steel pile cap that also 
supported the fuel assemblies.

All RBMK reactors, such as the ChNPP unit four, have a positive void 
coefficient, which results in the reactors being unstable at low power 
and having a tendency toward power surges. Other reactor designs have 
positive void coefficients as well, but they, unlike the RBMKs, have 
compensating design features to maintain stability. A void coefficient 
can occur in any water-cooled reactor. A void is a pocket of steam that 
forms in a water channel. The more steam that is created, the more 
voids that form; the more voids that form, the more the reactor 
operation varies, because steam is not an efficient coolant and can 
neither serve as a moderator nor neutron absorber. Water can serve all 
three functions: cooling, moderating, and neutron absorption. A 
positive void coefficient means that the excess steam increases power 
generation, and a negative void coefficient means that the excess steam 
decreases power generation. RBMK reactors have a high positive void 
coefficient; this means that the power generation can increase rapidly 
and, as a result, generate more steam, which in turn increases the 
power generation in an ultimately uncontrollable process. This process 
cycle can occur very quickly, as was seen at Chernobyl, where the 
reactor power peaked at a hundreds of times its normal, full-power 
rating. The reason for the high void coefficient in the RBMK reactors 
is that the moderator (graphite) and the coolant (water) are in 
separate channels. As the steam increases, the reactor gets hotter, but 
the moderator is unaffected by the steam, and the fission reaction 
continues. In fact, since the neutron-absorbing capacity of the water 
is an operating characteristic, the increased amount of steam increases 
the number of free neutrons, which increases the fission reaction.

Moreover, the graphite itself is a design weakness in that, while being 
more efficient for weapons making and a fairly effective moderator, it 
does not endure extreme temperatures very well. Graphite, which is 
carbon based, will burn in the core if it is exposed to air. If the 
graphite burns, the neutrons will hit at a greater velocity, causing 
more heat to be produced. Great care must be taken to keep air away 
from the core. Additionally, there was no containment vessel at the 
Chernobyl plant. In all U.S. nuclear power plants, there is a mandatory 
cement and steel reinforced containment "bubble" covering the core and 
other components. Unit four had a pressure seal designed to keep the 
pressure in, but no containment vessel in case of an explosion. 
Containment structures are intended to withstand and contain the energy 
and material released from a reactor during an accident or incident. 
These materials could include radioactive gases (such as xenon and 
krypton), volatilized fission products and other elements, and solid 
material ejected from the core in the event of a full-scale core 
excursion. A core excursion could include, for example, a melt- down 
and loss of reactor vessel or primary system integrity.

Finally, as will be explained in the next section, there were errors in 
operating the reactor, including inadequate knowledge of the reactor 
characteristics, and ignorance or avoidance of operating regulations, 
beginning with the nonroutine operation of the reactor.

Safety Margin Test of the ChNPP Unit Four Reactor:

Nuclear power plants need electricity. While the reactor generates 
power, the various systems that support the reactor operation need 
power from outside the plant. Thus, these systems need backup power in 
order to function should the outside power source be interrupted. 
Backup power can come from at least two sources: (1) the reactor itself 
can be used to provide this power and (2) backup generators can serve 
as an alternative power source. Problems arise if the reactor is not 
producing power--as was the case at Chernobyl, since it was in the 
process of routine shutdown--or if the time lag between power loss and 
generator startup is too long. The ChNPP safety margin test was 
designed to test this time lag. The reactor's power level was to be 
lowered to see whether the turbine itself would have enough residual 
inertia to pump coolant through the rector core, in combination with 
the existing coolant convection, until the backup generators started 
and provided electricity.

The test preparation sequence began almost 24 hours prior to the 
accident, at approximately 1 a.m. on April 25, 1986. The reactor's 
power level was gradually reduced to 1600 MW(t) by 2 p.m. the same day. 
This level was maintained until 11 p.m. During this period, the 
emergency core cooling system was isolated so that it would not 
interfere with the test. This did not directly contribute to the 
accident but could have reduced its impact. The power level was lowered 
again starting at midnight, April 26, and about 30 minutes later, the 
reactor was at 700 MW(t), which is now understood to be the minimum 
safe operating level for an RBMK due to the positive void coefficient. 
The reactor was then reduced to 500 MW(t), at which point, either due 
to human error or system failure, the reactor did not hold at its 
required level and dropped quickly to 30MW(t). In response, the 
operator tried to restore power by pulling out some of the control 
rods. Although it is not known exactly how many control rods remained 
in the reactor, there is general agreement that the number left was 
less than 26 and would have required the chief engineer's approval for 
continued operation. By 1 a.m. on April 26, the reactor power was up to 
200 MW(t). During the next 20 minutes, additional pumps were engaged to 
increase water flow to the reactor core, which decreased the water 
level in the steam separator. The automatic trip systems were 
disengaged in order to continue reactor operations. The feed water flow 
was increased to counter the problems in cooling. Some manual control 
rods were retracted, which may have reduced the number of control rods 
below the minimum effective number. The feed water flow was reduced to 
increase the steam separator water level, but this also decreased the 
core cooling, which caused steam generation in the core. All evidence 
suggests that the reactor indicators showed that it was stable, 
although in an abnormal operation state.

Thus, the actual test began at approximately 1:23 a.m. on April 26, 
1986. The feed valves for the turbine were closed to make the turbine 
continue under its own inertia. Automatic control rods were lifted to 
counter the reduced reactivity due to the valve closures. This did not, 
however, decrease the volume of steam as expected. The steam generation 
increased, which, due to the positive void coefficient, increased 
power. The steam continued to increase unabated. The reactor operator 
engaged the control rods, which, due to their inefficient design, 
concentrated the reactivity in the bottom of the core. The reactor 
power rose to approximately two orders of magnitude greater than the 
reactor was designed for, which resulted in the fuel pellets 
fracturing, producing a pressure wave as the fragments reacted with the 
cooling water rupturing the fuel channels. This was followed by two 
explosions, the first of steam, and the second of fuel vapor that 
lifted the pile cap, introducing air that turned into carbon monoxide 
as it reacted with the graphite. Finally, the carbon monoxide ignited, 
starting a reactor fire. This entire sequence took approximately 24 
hours; however, the time from test initiation to explosion took 
approximately 1 minute. The fire was eventually put out after tons of 
materials were dropped on the reactor and after many lives were lost.

Regarding the release of radionuclides, an International Atomic Energy 
Agency (IAEA) report has a sobering summary. The report noted that in 
the initial assessment of releases made by the Soviet scientists and 
presented at the IAEA Post-Accident Assessment Meeting in Vienna, it 
was estimated that 100 percent of the core inventory of the noble gases 
(xenon and krypton) was released. In addition, between 10 percent and 
20 percent of the more volatile elements of iodine, tellurium and 
cesium were released as well. The early estimate for fuel material 
released to the environment was 3 percent, plus or minus 1.5 percent. 
This estimate was later revised to 3.5 percent, plus or minus 0.5 
percent. This corresponds to the emission of 6 tons of fragmented fuel.

According to IAEA, the accident resulted in more than 5 million people 
living in areas of Belarus, Russia, and Ukraine that are classified as 
"contaminated" with radionuclides (above 37 kBq[Footnote 35] per square 
meter of cesium-137). Among them, about 400,000 people lived in more 
contaminated areas--classified by Soviet authorities as areas of strict 
radiation control (above 555 kBq per square meter of cesium-137).

There are wide-ranging estimates from various organizations about the 
death toll from the Chernobyl accident. According to IAEA, the World 
Health Organization, and Greenpeace, people did die at Chernobyl and 
people will continue to die from the effects of Chernobyl. This, when 
coupled with the vast contaminated areas of the former Soviet Union, 
makes Chernobyl the worst nuclear accident in history.

[End of section]

Appendix II: Objectives, Scope, and Methodology;

This report (1) assesses progress in an internationally funded project 
to construct a new shelter over the damaged reactor at the Chernobyl 
Nuclear Power Plant in Ukraine and factors that impact the completion 
of its construction, (2) reviews the cost estimates to complete the 
project, and (3) assesses the U.S. role in overseeing the project and 
in funding it through the Chernobyl Shelter Fund (CSF).

To address these objectives, we conducted fieldwork in the United 
States and internationally. In the United States, we focused our review 
primarily on the Department of State (State) in Washington, D.C., since 
it is the lead U.S. agency for overseeing and funding the project. We 
also contacted officials and reviewed documentation from the U.S. 
Agency for International Development (USAID) in Washington, D.C., which 
administers the U.S. payments to the CSF. For historical and background 
perspectives, we met with officials from the U.S. Nuclear Regulatory 
Commission in Rockville, Maryland, and the Department of Energy in 
Washington, D.C., agencies which had more predominant roles in earlier 
phases of the Chernobyl Shelter Project. In addition, we coordinated 
with representatives from the U.S. Treasury Department, which is the 
federal agency that has oversight responsibilities for the European 
Bank for Reconstruction and Development (EBRD). EBRD, which is located 
in London, is a multilateral bank that, among other things, administers 
the CSF. We also met with officials from Bechtel International Systems 
in Frederick, Maryland, and Battelle Memorial Institute in Richland, 
Washington. These two organizations are part of a consortium of three 
western companies that provide staff to the project management unit 
(PMU) responsible for the day-to-day implementation of the Chernobyl 
shelter project.[Footnote 36]

As part of our international fieldwork, during an October 2006 visit to 
London, we interviewed EBRD officials as well as the United Kingdom's 
representative to the assembly of contributors, a body that acts like a 
board of directors for the CSF. In June 2006, we met in Brussels, 
Belgium, with officials from the European Commission, which also has a 
representative on the assembly of contributors and is the single- 
largest contributor to the CSF. We also met with International Atomic 
Energy Agency (IAEA) officials in Vienna, Austria, to discuss the 
background of the project. In July 2006, we interviewed an official 
from Russia's Ministry of Atomic Energy (Rosatom) to obtain Russia's 
views about the project. During October 2006, we met with current or 
former Ukrainian government officials in Kyiv, Slavutych, and the 
Chernobyl site in Ukraine. These officials represented the State 
Nuclear Regulatory Committee of Ukraine, the Ministry of Fuel and 
Energy, the Ministry of Emergency Situations, the Accounting Chamber of 
Ukraine, the Ministry of Foreign Affairs, and the Chernobyl Nuclear 
Power Plant (ChNPP). At the Chernobyl site, we observed the 
deteriorating existing shelter that is scheduled to be replaced and 
interviewed the ChNPP director and his managers, as well as PMU 
officials. In Kyiv, we also met with U.S. embassy officials, including 
the ambassador, an EBRD representative, and a contractor assisting the 
State Nuclear Regulatory Committee of Ukraine with regulatory reviews 
of project documents.

To examine the Chernobyl shelter project's progress toward completing 
the new shelter and factors impacting its completion, we reviewed 
various project documents and interviewed knowledgeable officials from 
EBRD, PMU, State, the United Kingdom, and the European Commission. 
Specifically, we obtained and reviewed 1997, 2003, and 2006 project 
schedules; EBRD's Project Progress Reports and other intermittent 
reports; PMU reports, including its 2005 analysis of risk areas for 
completing the new shelter; and the 2002 and 2005 independent audits of 
the PMU.

We generally had access to all needed information to assess the 
project's progress and factors impacting it. However, there were 
certain access limitations pertaining to our review of the delays 
related to the award of the new shelter construction contract. Since 
the contracting process is treated as confidential under EBRD 
procurement rules until the contract is awarded, we were not able to 
examine the bid proposal documents and their evaluations, the bid 
protest and its evaluation, or the open points in the bid proposal that 
were being negotiated during our work. However, we were able to examine 
relevant public documents related to the contracting process, such as 
the materials presented to the contractors to aid their preparation of 
proposals. Also, we were able to interview EBRD, PMU, Ukrainian, and 
State officials about the status of the ongoing contracting process.

To review the cost estimates to complete Chernobyl shelter project, we 
obtained cost estimate summaries and discussed these estimates with 
officials from EBRD, the PMU, and ChNPP as well as officials from 
State, USAID, Ukraine, the United Kingdom, and the European Commission. 
To examine the history of the project cost estimates, we obtained and 
analyzed the original 1997 estimate developed by a team of 
international experts, PMU estimate summaries from 2003 to the present, 
and PMU reconciliations of estimates with prior ones. In March 2007, we 
requested and received from a PMU cost analyst an update on cost 
estimates, which provided information on the likelihood of a higher 
cost estimate as the result of delays in awarding the new shelter 
contract. In addition, we examined a 2005 PMU probability analysis that 
quantified the cost impact of about 20 risks for the construction of 
the new shelter. We also discussed the risk of further cost increases 
with PMU officials and CSF contributors. For the ChNPP director's cost 
analysis of three other internationally-funded Chernobyl projects, we 
confirmed the cost amounts either with an EBRD official or through a 
European Union document. We also reviewed GAO reports that provided 
examples of other internationally-funded construction projects that 
experienced significant cost overruns.

We judged that the project cost estimates were sufficiently reliable 
for the purposes of this report. We did not test the reliability of the 
price data used in the project cost estimates because we did not have 
access to the underlying data. However, we did judge that the cost 
estimating methodology used by the PMU analysts was reasonable. We 
reviewed the PMU's cost-estimating methodology using generally accepted 
cost-estimating principles[Footnote 37] and discussed the methodology 
and the analyses with PMU officials responsible for developing the cost 
estimates. On this basis, we believe that Bechtel's estimates are 
sufficiently reliable for the purposes of this report as estimates of 
the project's potential cost. Further, we did not assess the project 
cost estimates' accuracy, which can only be definitively determined in 
the future after final project costs are known. However, we note in the 
report that the cost estimates may diverge from the project's final 
costs due to price escalations of materials and potential project 
risks, among other factors.

To assess the U.S. role in overseeing and funding the project, we 
interviewed State and USAID officials and obtained and analyzed 
documentation from them. In addition, we examined EBRD's CSF rules, its 
most recent Project Progress Report with CSF financial data, and other 
bank and PMU documents that described the roles of EBRD or the assembly 
of contributors. We also discussed the roles of contributors with 
assembly representatives from the United Kingdom and the European 
Commission. To examine State's efforts to monitor the project, we 
reviewed pertinent cables and related documents exchanged between State 
representatives in Washington, D.C., and U.S. embassy officials in 
Ukraine. Finally, to understand the information about the shelter 
project provided to Congress, we reviewed State's annual congressional 
budget justifications for foreign assistance and USAID's most recent 
congressional notification of payments to CSF.

In the report, we present CSF financial information as of September 30, 
2006, in U.S. dollars. Because the EBRD reports CSF amounts in euros, 
we converted these amounts into U.S. dollars using the average exchange 
rate for the third quarter of 2006, as reported by the International 
Monetary Fund. We used the third quarter of 2006 because the most 
recent EBRD report cites CSF financial information that falls within 
that period. This adjustment may not account for relative price changes 
between the date on which countries made their contributions and the 
third quarter 2006. However, to provide an inflation-adjusted amount 
for the total U.S. contribution, we adjusted the U.S. contributions 
that occurred in different years for inflation using a gross domestic 
product price index, with a base year of 2006 (third quarter). This 
adjustment makes the U.S. contributions from different years comparable 
in terms of purchasing power.

To present the portions of contributions from the United States and 
other fund providers, we calculated percentages based on EBRD's data 
for contribution agreements in euros as of September 30, 2006. In 
addition to payments, contributions agreements may include formal 
commitment of funds that have not yet been paid into the CSF. For 
example, the U.S. commitment agreement amount, which totaled about $154 
million in nominal dollars, included about $34 million that the United 
States had formally committed for payment to EBRD but had not yet paid. 
In contrast, the contributions agreement amounts exclude pledges to the 
CSF that have not been formalized. For instance, the United States' 
2005 pledge of $45 million is excluded from the contribution agreement 
amount because it had not yet been formally committed for payment. 
Finally, some reported contribution amounts are affected by CSF 
accounting rules, which require contributions in non-euro currencies to 
be recorded in euro equivalents at historic exchange rates. The dollar 
amount of the U.S. commitment agreement was thus recorded in euros at a 
single historic exchange rate, regardless of exchange rates at the time 
of past or pending U.S. payments.[Footnote 38] According to an EBRD 
official, this reporting of the financial data is in line with the 
provisions of the CSF rules and provides the most accurate overview of 
donor commitments at any given time.

To assess the reliability of the project fund data for the purposes of 
this report, we reviewed the required CSF financial controls and two 
external audits of the fund. CSF rules require certain control 
mechanisms for accounting for the funds. Specifically, the assembly of 
contributors should approve the annual budget and financial statements 
of the fund, and the financial statements of the fund should be audited 
by internal and external auditors of EBRD. It was not our objective to-
-and we did not--audit the completeness or accuracy of CSF financial 
statements. However, we examined the external auditor's reports for 
2003 and 2004 and found that both expressed the opinion that the 
financial statements were fairly presented and properly prepared. In 
addition, we corroborated the amount of U.S. contributions to CSF 
presented in EBRD data by confirming it with officials at State and 
USAID and reviewing USAID payment documentation. For these reasons, we 
believe the fund data is sufficiently reliable for the purposes of this 
report.

In the report, we describe Ukrainian laws based on secondary documents, 
officials' descriptions, or translated copies. However, we did not 
independently verify descriptions of Ukrainian law.

We performed our review from May 2006 through June 2007 in accordance 
with generally accepted government auditing standards.

[End of section]

Appendix III: Donor Governments' Contribution Agreements with the 
Chernobyl Shelter Project, as of September 2006;

Donor governments: European Commission; 
Percentage of total contributions: 26.30.

Donor governments: United States; 
Percentage of total contributions: 19.16.

Donor governments: Other G-7 countries; 
Percentage of total contributions: 35.97.

Donor governments: Other G-7 countries: Germany; 
Percentage of total contributions: 8.35.

Donor governments: Other G-7 countries: United Kingdom; 
Percentage of total contributions: 6.57.

Donor governments: Other G-7 countries: Japan; 
Percentage of total contributions: 5.91.

Donor governments: Other G-7 countries: France; 
Percentage of total contributions: 5.77.

Donor governments: Other G-7 countries: Canada; 
Percentage of total contributions: 4.82.

Donor governments: Other G-7 countries: Italy; 
Percentage of total contributions: 4.55.

Donor governments: Ukraine; 
Percentage of total contributions: 6.22.

Total European Commission, United States, other G-7 countries, and 
Ukraine; 
Percentage of total contributions: 87.65.

Other countries; 
Percentage of total contributions: 12.35.

Other countries: Switzerland; 
Percentage of total contributions: 1.29.

Other countries: Russian Federation; 
Percentage of total contributions: 1.24.

Other countries: Ireland; 
Percentage of total contributions: 1.11.

Other countries: Austria; 
Percentage of total contributions: 1.04.

Other countries: Norway; 
Percentage of total contributions: 0.96.

Other countries: Sweden; 
Percentage of total contributions: 0.92.

Other countries: Netherlands; 
Percentage of total contributions: 0.79.

Other countries: Kuwait; 
Percentage of total contributions: 0.75.

Other countries: Spain; 
Percentage of total contributions: 0.70.

Other countries: Greece; 
Percentage of total contributions: 0.69.

Other countries: Denmark; 
Percentage of total contributions: 0.69.

Other countries: Finland; 
Percentage of total contributions: 0.62.

Other countries: Belgium; 
Percentage of total contributions: 0.43.

Other countries: Luxembourg; 
Percentage of total contributions: 0.35.

Other countries: Poland; 
Percentage of total contributions: 0.35.

Other countries: Slovak Republic; 
Percentage of total contributions: 0.28.

Other countries: Korea; 
Percentage of total contributions: 0.05.

Other countries: Slovenia; 
Percentage of total contributions: 0.04.

Other countries: Israel; 
Percentage of total contributions: 0.04.

Other countries: Portugal; 
Percentage of total contributions: 0.02.

Other countries: Iceland; 
Percentage of total contributions: 0.00[A].

Donor governments: Total, European Commission, United States, other G-7 
countries, Ukraine and other countries; 
Percentage of total contributions: 100.00.

Source: EBRD.

Note: The percentages exclude pledges that are not officially 
confirmed. The shares are also impacted by the CSF rules to account for 
pledges in non-euro currencies using set historic exchange rates.

²Less than .005 percent.

[End of table]

[End of section]

Appendix IV: Comments from the Department of State:

United States Department of State:
Assistant Secretary for Resource Management 
and Chief Financial Officer:
Washington, D.C. 20520

Ms. Jacquelyn Williams-Bridgers:
Managing Director:
International Affairs and Trade:
Government Accountability Office:
441 G Street, N.W. 
Washington, D.C. 20548-0001:

Jun 25, 2007

Dear Ms. Williams-Bridgers:

We appreciate the opportunity to review your draft report,
"Nuclear Safety: Construction of the Protective Shelter for the 
Chernobyl Nuclear Reactor Faces Schedule Delays, Potential Cost 
Increases, and Technical Uncertainties," GAO Job Code 360693.

The enclosed Department of State comments are provided for 
incorporation with this letter as an appendix to the final report.

If you have any questions concerning this response, please contact 
Andrew Sowder, Physical Scientist, Bureau of International Security and 
Nonproliferation, at (202) 736-4431.

Sincerely, 

Signed by: 

Bradford R. Higgins: 

cc: GAO — Terry Hanford 
ISN — John C. Rood 
State/OIG — Mark Duda

Department of State Comments on GAO Draft Report

Nuclear Safety: Construction of the Protective Shelter for
the Chernobyl Nuclear Reactor Faces Schedule Delays, Potential Cost
Increases, and Technical Uncertainties
(GAO-07-923, GAO Code 360693)

The Department of State appreciates the opportunity to review and 
comment on the Government Accountability Office draft report entitled, 
"Nuclear Safety: Construction of the Protective Shelter for the 
Chernobyl Nuclear Reactor Faces Schedule Delays, Potential Cost 
Increases, and Technical Uncertainties." The report is generally 
accurate and informative and provides useful insights into the complex 
history and management of the Chernobyl Shelter project.

The Department agrees for the most part with the recommendations made 
in the GAO draft report, which include five actions. However, as the 
report itself recognizes, Department consideration of the recommended 
actions must take into account the special role of the European Bank 
for Reconstruction and Development (EBRD) as the Chernobyl Shelter Fund 
(CSF) administrator and the Rules of the CSF, which govern the 
administration of the Fund by the EBRD and the participation of the 
United States and other donors represented on the CSF Assembly.

Department Response to Draft Report Recommendations

Recommendation 1: Establish specific performance benchmarks for the 
project that need to be met before additional funds are made available;

Recommendation 2: Periodically review and revise the benchmarks to 
ensure they are relevant and applicable to the project's performance 
goals and timeframes;

State Response: Partially concur. While benchmarks and the associated 
reviews could provide useful management tools, the incorporation of 
these additional requirements into the existing cumbersome Chernobyl 
Shelter Fund structure could have negative impacts on the EBRD, Project 
Management Unit (PMU), and contractor performance. Also, unilateral 
application of conditions or constraints on additional pledges could be 
negatively received by the other contributors to the CSF. Other major
donor governments would have to concur and cooperate with such an 
approach for it to be successful. The implementation of these steps 
could require third-party consultant resources that would incur costs 
and could result in delays to the project. The U.S. and other donors 
would need to evaluate whether the benefits of these control steps 
offset the potential negative impacts. It should also be noted that 
upon completion of the final design of the new Shelter, the contractor 
will have identified all major project construction milestones and 
critical path items, and accordingly, the PMU would be expected to 
impose appropriate project controls for performance-based payments.

Recommendation 3: Obtain an independent validation of major revisions 
to cost estimates;

State Response: Partially concur. As with Recommendations 1 and 2, the 
Department agrees in principle with the GAO recommendation for 
independent validation of major revisions to cost estimates. However, 
as with Recommendations 1 and 2, the Department cautions that the 
insertion of another review step could introduce substantial delays to 
an already burdensome project management process, especially if 
concurrence from the CSF Assembly would be required. A credible 
independent validation will require experts with multidiscipline 
experience in areas such as cost estimation, project controls, 
engineering, risk analysis, etc., and would incur costs associated with 
the requisite third-party consultant resources. Such an approach to 
this multinational project would require the approval of the CSF 
Assembly and would also need to be consistent with EBRD and CSF rules. 
Also, it is not clear that independent validation would improve the 
cost estimates, as validation alone will not change the uncertainties 
or address the difficulties in quantifying those uncertainties. As the 
GAO draft report states:

"In general, project costs estimates become more precise as 
project designs that define contracted activities are finalized, 
bids from firms competing for the contracts are received, and 
then a contract is awarded. As work under the contract 
progresses, the adequacy of reserve funds becomes known, 
which increases the level of certainty in project cost estimates 
until the work and contract are completed and final costs are 
known."

The U.S. and other donors would need to determine if the benefits of 
such a requirement offset the potential delays and increased costs of 
the project that would likely result.

Recommendation 4: Develop a contingency strategy for obtaining the 
additional funding that may be needed to complete the project. The 
strategy should include encouraging other major donor countries and the 
European Commission to also contribute additional funding;

State Response: Concur. As indicated above, project costs will become 
more precise when project designs and contract terms are finalized. 
Once contract terms are final and contract costs have been explained to 
the CSF Assembly, the Department will consult with key Congressional 
Committees and devise a plan to meet what is certain to be a funding 
shortfall. That short fall will have to be addressed on a multilateral 
basis, and we would insist that other donors pay their share. The 
United States has historically played a leadership role in encouraging 
broad international support for the CSF at the three pledging events 
held in 1997, 2000, and 2005. Given the Department's prominent role as 
the U.S. representative to the CSF Assembly and the relevant G-8 
working group in which Chernobyl Shelter matters are addressed, the 
Department would also seek broad support among the G-8, European 
Commission, and other major donor countries should the need for 
additional funding for the Shelter arise in the future as the project 
nears completion.

Recommendation 5: Furthermore, to increase State's accountability and 
transparency for funding the project, the Secretary of State should 
provide a detailed annual report to Congress about the status of the 
project, including project costs, project milestones, and estimated 
completion dates.

State Response: Concur in principle. The Department is willing, as in 
the past, to provide Congress the information needed to support ongoing 
and potential future funding for the CSF. If requested, the Department 
will forward a report to the Congress based on information from the 
EBRD and information that the Department gathers through other channels 
including Department and Embassy Kyiv meetings with officials from the 
EBRD, the PMU, and the Government of Ukraine, as well as visits to the 
Chernobyl Nuclear Power Plant. A biennial (two-year) reporting 
frequency may be more appropriate for such a report.

Additional Substantive Comments:

Expansion of Shelter Implementation Plan (SIP) Scope: In several 
places, the GAO draft report observes that PMU officials and 
representatives from donor governments indicated that "...the 
international commitment to Chernobyl may not end with the completion 
of the new shelter, and expansions of the project's scope could be 
costly."

State Response: The Department has consistently advanced the U.S. 
position that the Shelter Implementation Plan (SIP) scope should remain 
limited in order to limit cost increases and to ensure the maximum 
likelihood of project completion. Any scope expansion for the SIP would 
require the non-objection of the CSF Assembly, and the U.S. would not 
agree to such an expansion.

Characterization of the Chernobyl Heat Plant Project: The GAO draft 
report notes that, "DOE's costs to finish the partially constructed 
Chernobyl heat plant, which was needed to supply space heat to 
facilities to support the decommissioning of the Chernobyl reactors 
rose significantly."

State Response: The United States Government costs for this project, 
met through funds authorized under the FREEDOM Support Act, did not 
increase significantly. Based on an earlier European Commission's cost 
estimate, DOE only conditionally committed to provide $10.5 million for 
the facility provided the design was adequate and the facility could be 
commissioned. Immediately following the agreement with Chernobyl 
Nuclear Power Plant, DOE developed detailed cost and schedule 
baselines, which were very closely adhered to for the facility 
commissioning. While there were challenges in completing the heat 
plant, the first donor-funded construction project at the Chernobyl 
industrial site, the facility was completed with minimum impact on cost 
and schedule. The heat plant is the only donor funded project that has 
been completed at the Chernobyl industrial site and has successfully 
operated for the past six years. This project represents a tangible 
success achieved through the U.S. — Ukraine 
bilateral cooperation. The Chernobyl Plant management and Government of 
Ukraine officials highlight this facility as an example of a "success" 
and of how the projects should be managed and executed at the Chernobyl 
site.

[End of section]

Appendix V: Comments from the U.S. Agency for International Development

USAID: 
From The American People: 

JUN 26 2007: 

Mr. Gene Aloise:
Director:
Natural Resources and Environment: 
U.S. Government Accountability Office:
441 G Street, N.W.
Washington, D.C. 20548:

Dear Mr. Aloise:

I am pleased to provide the U.S. Agency for International Development's 
(USAID) formal response on the draft GAO report entitled Nuclear 
Safety: Construction of the Protective Shelter for the Chernobyl 
Nuclear Reactor Faces Schedule Delays, Potential Cost Increases, and 
Technical Uncertainties (July 2007) (07-923).

USAID concurs with the report's analysis that the Chernobyl Shelter 
project has experienced significant delays and may face potential cost 
increases. USAID, therefore, believes it is critical for the United 
States and other contributors to the Chernobyl Shelter Fund (CSF) at 
the European Bank for Reconstruction and Development (EBRD) to monitor 
closely the construction progress of the New Safe Containment (NSC) 
against clear milestones and to be prepared to consider, in 
consultation with other contributors and the EBRD, appropriate actions 
if project milestones are not being met.

Your report recommends benchmarks for conditioning the release of 
funds. However, we are concerned that imposing new decision-making 
processes on the Assembly of Contributors may hinder and further delay 
contract implementation. Since we expect that the large $500 million 
contract for the construction of the NSC will have performance 
benchmarks and legal processes for resolving disputes between the 
Chernobyl Power Plant and the contractor, our opinion is that the issue 
of additional benchmarks would require careful consideration. GAO's 
recommendation regarding benchmarks is not clear as to which funds 
releases they would apply to, when they would be reviewed, and what 
would be their relationship with the contractual performance benchmarks 
and the formal Assembly disbursement procedures. 

In addition to ensuring that project milestones are clearly defined and 
transparent, USAID views improved reporting by the EBRD to the Assembly 
on contract implementation and other project issues to be a high 
priority for effective project oversight and monitoring. GAO's report 
could be strengthened and clearer on the issue of the adequacy of 
reporting to the Assembly by the EBRD. Based on USAID's experience in 
attending Assembly meetings and reviewing progress reports to date, 
USAID is of the opinion that the EBRD-issued reports are not sufficient 
to closely monitor progress during this key construction phase. More 
comprehensive reports should be provided to the Assembly to enhance 
accountability and transparency and to minimize the need for external 
review and audit processes. As GAO confirmed during its investigation, 
detailed information is available from the Project Management Unit in 
the field that could be incorporated into these more extensive reports.

On the issue of potential cost increases, it is clear that large 
international infrastructure projects are experiencing increased costs, 
due to higher material, labor, and energy costs. Yet it may be 
worthwhile to note that selected on-going and completed CSP projects 
have been carried out within budget. With respect to the issue of 
potential additional funding requirements, we believe that the 
significant improvements in the economic conditions in Ukraine and 
Russia since the CSF agreement was signed suggest that these countries 
should be in a position to contribute a larger share of any new funding 
commitments.

Thank you for the opportunity to respond to the GAO draft report and 
for the courtesies extended by your staff in the conduct of this review.

Sincerely, 

Signed by: 

Mosina H. Jordan: 
Counselor to the Agency: 

[End of section] 

Appendix VI: 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, Glen Levis (Assistant 
Director), John Delicath, Terry Hanford, Keith Rhodes (GAO's Chief 
Technologist), Mary Welch, and Jennifer Young made key contributions to 
this report. Others who made important contributions included Michael 
Armes, Doreen Eng, and Tim Guinane.

FOOTNOTES

[1] The Chernobyl Nuclear Power Plant had four operating reactors, 
designated as units one through four. Each reactor has a core designed 
to contain uranium fuel and control elements that are held within a 
sealed metal container. Additional information on the root causes and 
impact of the Chernobyl accident can be found in appendix I.

[2] The European Commission is the European Union's executive body. The 
union's member countries are Austria, Belgium, Bulgaria, Cyprus, Czech 
Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, 
Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, 
Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, and the 
United Kingdom. Some of these countries also donate independently to 
the Chernobyl Shelter Fund.

[3] The total does not include pledges that have not been paid into the 
fund. The European Bank for Reconstruction and Development (EBRD), 
which administers the fund, reports the total payments into CSF, 
expenditures, and other amounts in euros. The amounts reported here are 
derived from its most recent Project Progress Report of October 10, 
2006, which reported these amounts as of September 30, 2006. We used 
the third-quarter 2006 exchange rate to convert the fund total and 
expenditures to U.S. dollars from euros.

[4] We adjusted the U.S. contributions for inflation using a gross 
domestic product price index. The proportions of U.S. and European 
Commission contributions are based on the contributions agreements from 
each country in euros, as reported by EBRD in its October 10, 2006, 
Project Progress Report.

[5] The act is more specifically named the Freedom for Russia and 
Emerging Eurasian Democracies and Open Markets (FREEDOM) Support Act of 
1992, Pub. L. No. 102-511, 106 Stat. 3320.

[6] In addition to the Chernobyl Shelter Fund, EBRD administers the 
Nuclear Safety Account, a multilateral fund designed to address safety 
improvements in Soviet-designed nuclear power reactors. This account 
also supports other projects such as the construction of two facilities 
at Chernobyl that are needed to decommission the three other reactors 
at the site.

[7] Organizations and other entities include the Assembly of 
Contributors (or donor governments, including the European Commission); 
the Project Management Unit, including the western consultant 
consortium; the Chernobyl Nuclear Power Plant; EBRD's International 
Advisory Group; Ukraine's State Nuclear Regulatory Committee; the 
Licensing Consultant that assists the Nuclear Regulatory Committee; 
Ukraine's Ministry of Emergency Situations that has responsibility for 
Chernobyl issues; and the Ukraine-EBRD Joint Committee.

[8] The following countries and organizations have formally pledged at 
least the minimum amount of funding to become members of the assembly 
of contributors: Austria, Belgium, Canada, Denmark, the European 
Commission, Finland, France, Germany, Greece, Ireland, Italy, Japan, 
Kuwait, Luxembourg, the Netherlands, Norway, Poland, the Russian 
Federation, Spain, Sweden, Switzerland, Ukraine, the United Kingdom, 
and the United States. Additional donors to the shelter fund include 
Iceland, Israel, Korea, Portugal, the Slovak Republic, and Slovenia.

[9] Electricité de France has nuclear expertise from operating 58 
nuclear power plants.

[10] For more information about this assistance, see GAO, Nuclear 
Safety: Concerns with the Continuing Operation of Soviet-Designed 
Nuclear Power Reactors, GAO/RCED-00-97 (Washington, D.C.: Apr. 25, 
2000).

[11] The G-7 consists of the governments of Canada, France, Germany, 
Italy, Japan, the United Kingdom, and the United States.

[12] According to the 1997 plan, the total project was scheduled to be 
completed after the deconstruction of the roof and unstable parts of 
the existing shelter, which was expect to be finished about a year and 
a half after completion of the new shelter.

[13] In Ukraine, various government agencies generally use decrees to 
establish and promulgate orders and regulations.

[14] In April 2007, a PMU official informed us that CH2M Hill was no 
longer participating in the competition for the shelter contract. 

[15] We were unable to examine the specifics of the Ukrainian 
complaint, the bid protest, or the contract proposals because the 
contracting process is confidential under EBRD rules until the contract 
is awarded.

[16] EBRD describes an affirmative outcome of a bank review of a 
project document as providing a "nonobjection," which it distinguishes 
from an approval of the document. For example, EBRD said that its 
nonobjection to a contract certifies that the procurement processes and 
proposals are in accordance with governing policies and rules but is 
not an approval of the contract. According to an EBRD official, 
approval of a contract is the responsibility of the recipient of the 
CSF grant, such as ChNPP.

[17] We have reported on other international construction projects with 
complex management structures. Specifically, a DOE-funded construction 
project to build fossil fuel plants to replace plutonium production 
reactors in Russia had 17 U.S. and Russian organizations participating 
in the project. DOE officials told us that the numerous organizations 
involved in managing the complex program made coordination difficult, 
which has led to delays. For more information, see GAO, Nuclear 
Nonproliferation: DOE's Efforts to Close Russia's Plutonium Production 
Reactors Faces Challenges, and Final Shutdown Is Uncertain, GAO-04-662 
(Washington, D.C: June 4, 2004). 

[18] The 1997 estimate did include an amount to partially account for 
project uncertainties. However, it did not identify an amount for cost 
contingencies specifically related to the construction of the new 
shelter.

[19] The calculated proportion of cost estimates for completed and 
ongoing contracts is based on total direct project costs (that is, 
estimated project costs minus reserve funds of $161 million). The 
calculation also excludes $73 million of contributions that are outside 
of the Chernobyl Shelter Fund but are included in the overall project 
estimate of $1.2 billion. Specifically, these excluded amounts are 
Ukrainian in-kind contributions valued at about $61 million and about 
$12 million for U.S. and Canadian funded projects in the late 1990s.

[20] According to PMU officials, under the fixed-price portion of the 
new shelter contract, the contractor can claim reimbursements for 
additional costs beyond its bid under certain conditions, such as for 
delays or increased work scope that result from the other party's 
actions. Such claims would be accepted, denied, or negotiated down.

[21] GAO, Nuclear Nonproliferation: DOE's Effort to Close Russia's 
Plutonium Production Reactors Faces Challenges, and Final Shutdown Is 
Uncertain, GAO-04-662 (Washington, D.C.: June 4, 2004); Weapons of Mass 
Destruction: Effort to Reduce Russian Arsenals May Cost More, Achieve 
Less Than Planned, GAO/NSIAD-99-76 (Washington, D.C.: Apr. 13, 1999); 
and Nuclear Safety: Concerns with the Continuing Operation of Soviet- 
Designed Nuclear Power Reactors, GAO/RCED-00-97 (Washington, D.C.: Apr. 
25, 2000).

[22] GAO has noted that this can be a risky strategy. We have reported 
on the construction of a nuclear waste treatment plant in the United 
States that similarly experienced high cost overruns because, among 
other things, construction was started before design and technology 
development was completed. The U.S. Department of Energy's project 
management guidance cautions that concurrent design and construction 
should only be used in limited situations, such as when work scope 
requirements are well defined, projects are not complex, and technical 
risks are limited. GAO, Hanford Waste Treatment Plant: Contractor and 
DOE Management Problems Have Led to Higher Costs, Construction Delays, 
and Safety Concerns, GAO-06-602T (Washington, D.C.: Apr. 6, 2006). 

[23] Within State, the Office for U.S. Assistance for Europe and 
Eurasia has responsibility for determining the level of FREEDOM Support 
Act funding to CSF. To make funding decisions, that office coordinates 
with State's Office of Nuclear Energy, Safety and Security, which has 
responsibility for the policy and subject matter related to nuclear 
safety for the project and CSF and has the lead for U.S. representation 
in the assembly of contributors. 

[24] This funding shortfall is the most current official estimate 
provided to us by PMU officials. However, PMU officials indicated that 
the estimated funding gap will fluctuate up and down with changes in 
such factors as exchange rates, interest earned on the CSF, and revised 
project cost estimates.

[25] This contribution amount includes installment payments totaling 
about $142 million into the CSF and credit for an in-kind contribution 
of about $12 million, which DOE spent to improve the safety of the 
Chernobyl shelter.

[26] Fission is a nuclear reaction in which a nucleus is split into 
fragments, usually two pieces of comparable mass, accompanied by a 
release of energy.

[27]Uranium is a heavy metallic element that is naturally radioactive. 
It can be processed for use in research, nuclear fuels, and nuclear 
weapons. Its atomic number is 92, and it has 92 protons and 92 
electrons. Uranium has several isotopes, the most abundant being U-238. 
However, U-235, as the fissile component of uranium, is the most 
important because it is usable as nuclear reactor fuel. U-235 is not 
very abundant and must be enriched for use in most nuclear power plants.

[28] The reactor core is the center of a nuclear reactor, and it 
contains the fuel that runs the reactor and the control elements.

[29] Fuel is the fissionable material used in a nuclear reactor. It is 
contained in sealed fuel rods within the reactor core.

[30] Neutron is a neutral, or uncharged, particle that is stable when 
contained in the nucleus. It combines with protons, which are 
positively charged subatomic particles, to form the nucleus of nearly 
any given atom.

[31] Chain reaction is a nuclear reaction consisting of a self- 
sustaining series of fissions, in which the average number of neutrons 
produced exceeds the number absorbed or lost.

[32] control element is a device used to control the power level of a 
nuclear reactor by absorbing neutrons and thereby controls the chain 
reaction taking place inside the reactor.

[33] Pressurized Water Reactor is a type of power producing reactor 
that keeps the water surrounding the core under pressure. When the 
pressurized water is heated by the reactor, it is sent to a heat 
exchanger, which boils water that is kept at a lower pressure. This 
steam is then sent to a turbine to generate electricity.

[34] Boiling Water Reactor is a type of power producing reactor that 
boils water directly in the core; steam is then sent to a turbine to 
generate electricity.

[35] A becquerel (Bq) is the international unit of radioactivity that 
equals one nuclear decay per second.

[36] The third western company in the consortium is Electricité de 
France, which is headquartered in France.

[37] For example, see Construction Management Association of America 
Inc., Construction Management Standards of Practice, (McLean, Va.: 
2002). 

[38] Outside of the recording procedure for CSF contribution 
agreements, payments into CSF are recorded at the exchange rate at the 
day of receipt.

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