WASHINGTON - The 2011 Fukushima Daiichi nuclear accident should serve as a wake-up call to nuclear plant operators and regulators on the critical importance of measuring, maintaining, and restoring cooling in spent fuel pools during severe accidents and terrorist attacks, says a new report from the National Academies of Sciences, Engineering, and Medicine. This report is the second and final phase of a congressionally mandated study on what lessons can be learned from the Fukushima Daiichi nuclear accident. The report from Phase 1 of this study was released in July 2014. The Phase 2 report provides findings and recommendations for improving U.S. nuclear plant security and spent fuel storage as well as re-evaluates conclusions from previous Academies studies on spent fuel storage safety and security.
The committee that carried out the study and authored the Phase 2 report found that spent fuel storage facilities -- both spent fuel pools used to store fuel under water and casks used to dry-store fuel -- at the Fukushima Daiichi nuclear plant maintained their containment functions during and after the March 11, 2011, Great East Japan Earthquake and tsunami. However, one of the two gates separating the Unit 3 spent fuel pool from the adjacent reactor well was damaged during the accident. Also, water appeared to have leaked around the gate seals in the Unit 4 spent fuel pool, allowing water to flow into the pool from the reactor well.
This water leak was accidental but also fortuitous, because it replenished water lost from the Unit 4 pool by evaporation, likely preventing water levels from dropping to the tops of the racks where the spent fuel was being stored. Keeping the fuel covered with water is essential for cooling and radiation shielding. Uncovery of the fuel would have substantially increased radiation levels above and around the pool, limiting personnel access to the pool and nearby areas, and could have resulted in severe damage to the fuel, increasing the potential for large radioactive material releases into the environment.
The committee recommended that the U.S. nuclear industry and the U.S. Nuclear Regulatory Commission (USNRC) improve the ability of plant operators to measure real-time conditions in spent fuel pools and maintain adequate cooling of stored spent fuel during severe accidents and terrorist attacks. These improvements should go beyond the current, post-Fukushima response to include hardened and redundant physical surveillance systems such as cameras, radiation monitors, pool temperature and water-level monitors, and means to deliver makeup water or sprays to the pools, even when physical access is limited by facility damage or high radiation levels.
Extreme external events and severe accidents can cause widespread and long-lasting disruptions to security infrastructure, systems, and staffing at nuclear plants, the committee concluded. Such disruptions can create opportunities for malevolent acts and increase the susceptibility of critical plant systems to such acts. Therefore, the committee recommended, nuclear plant operators and their regulators should upgrade and/or protect nuclear plant security infrastructure and systems and train security personnel to cope with extreme external events and severe accidents. Such upgrades should include redundant and protected power sources dedicated to plant security systems that function independently if safety systems are damaged, as well as diverse and flexible approaches for coping with and reconstituting plant security infrastructure, systems, and staffing during and following extreme external events and severe accidents.
The committee determined that the USNRC has implemented most of the recommendations from previous Academies reports on spent fuel safety and security. However, two recommendations from those reports have not yet been implemented, the committee found. The first was to analyze the vulnerabilities of spent fuel pools to specific terrorist attack scenarios described in the 2004 Academies report, and the second was to carry out an independent examination of surveillance and security measures for protecting stored spent fuel. This independent examination should address the effectiveness of the USNRC's security and surveillance measures for addressing the insider threat, the committee said. It also recommended that the USNRC and nuclear industry strengthen their capabilities for identifying, evaluating, and managing the risks from terrorist attacks and that the USNRC sponsor a spent fuel storage security risk assessment of sufficient scope and depth to explore the benefits of this methodology for enhancing security at U.S. nuclear plants.
The committee reviewed technical analyses carried out by the USNRC to inform a regulatory decision on whether to expedite the transfer of spent fuel from pools to dry casks to reduce storage risks. Although these analyses are valuable technical contributions to understanding the consequences of spent fuel pool accidents, they are of limited use for assessing spent fuel storage risks because they do not consider sabotage risks, dry cask storage risks, or certain health consequences that would likely result from a severe nuclear accident. It is also difficult to make valid comparisons between pool and dry cask storage risks because of the way the analyses were carried out. The committee recommended that the USNRC perform a spent fuel storage risk assessment that addresses both accident and sabotage risks for both pool and dry cask storage. USNRC staff informed the committee that it is already thinking about how to expand its risk assessment methodologies to include sabotage risks.
The study was sponsored by the U.S. Nuclear Regulatory Commission. The National Academies of Sciences, Engineering, and Medicine are private, nonprofit institutions that provide independent, objective analysis and advice to the nation to solve complex problems and inform public policy decisions related to science, technology, and medicine. The Academies operate under an 1863 congressional charter to the National Academy of Sciences, signed by President Lincoln. For more information, visit http://national-academies.
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Copies of Lessons Learned From the Fukushima Nuclear Accident for Improving Safety and Security of U.S. Nuclear Plants: Phase 2 are available from the National Academies Press on the Internet at http://www.
THE NATIONAL ACADEMIES OF SCIENCES, ENGINEERING, AND MEDICINE
Division on Earth and Life Studies
Nuclear and Radiation Studies Board
Committee on Lessons Learned from the Fukushima Nuclear Accident for Improving Safety and Security of U.S. Nuclear Plants: Phase 2
Joseph E. Shepherd (chair)
Vice President for Student Affairs, and
C.L. "Kelly" Johnson Professor of Aeronautics and Professor of Mechanical Engineering
California Institute of Technology
Robert A. Bari
Brookhaven National Laboratory
Consulting in the Public Interest
Michael L. Corradini*
Department of Engineering Physics
University of Wisconsin-Madison
Vijay K. Dhir*
Distinguished Professor of Mechanical and Aerospace Engineering
Mechanical and Aerospace Engineering Department
University of California, Los Angeles
Michael W. Golay
Professor of Nuclear Science and Engineering
Department of Nuclear Science and Engineering
Massachusetts Institute of Technology
Barbara L. Hamrick
Radiation Safety Officer
University of California, Irvine Medical Center
Paul A. Locke
Department of Environmental Health Sciences
Johns Hopkins Bloomberg School of Public Health
Thomas G. Moser
Arthur T. Motta
Chair, Nuclear Engineering Program, and
Professor of Nuclear Engineering and Materials Science Engineering
Pennsylvania State University
John A. Orcutt*
Distinguished Professor of Geophysics
Scripps Institute of Oceanography
University of California, San Diego
Emilie M. Roth
Owner and Principal Scientist
Roth Cognitive Engineering
Menlo Park, Calif.
Elizabeth Q. Ten Eyck
ETE Consulting, Inc.
Great Falls, Va.
Frank N. von Hippel
Senior Research Physicist and Professor of Public and International Affairs Emeritus
Program on Science and Global Security
Loring A. Wyllie Jr.*
Chairman Emeritus of the Board, and
San Francisco, Calif.
Kevin D. Crowley
* Member, National Academy of Engineering