Decommissioning of Pools in Nuclear Facilities

Decommissioning of Pools in Nuclear Facilities PDF

Author: International Atomic Energy Agency

Publisher: IAEA Nuclear Energy

Published: 2015

Total Pages: 0

ISBN-13: 9789201031150

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Pools or ponds are usually an integrated part of a more complex nuclear facility, but in some particular cases pools may be considered as a separate nuclear facility with a specific license. A number of nuclear installations utilize pools for the cooling of spent fuel, or the shielding of research reactor cores or irradiator sources. Over a service lifetime that can span decades, nuclear pools may become contaminated as a result of the deposition of radioactive substances. Relevant aspects of pool decommissioning covered in this publication include project planning and management, health and safety, and the management of resulting waste.

Decontamination and Decommissioning of Nuclear Facilities

Decontamination and Decommissioning of Nuclear Facilities PDF

Author: Marilyn M. Osterhout

Publisher: Springer

Published: 1980-05

Total Pages: 832

ISBN-13:

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This vOlume contains the invited and contributed papers pre sented at the American Nuclear Society (ANS) meeting on Decontamina tion and Decommissioning (D & D) of Nuclear Facilities, held Septem ber 16-20, 1979, in Sun Valley, Idaho. This was the first U. S. meeting of the ANS which addressed both of these important and related subjects. The meeting was attended by more than 400 engineers, scientists, laymen, and representatives of federal, state, and local governments, including participants from eleven foreign countries. The technical sessions included several sessions concentrating on ongoing D & D programs in the U. S. and abroad. In addition, "new ground" was broken in such areas as decommissioning costs and cost recovery, advanced programs on reactor coolant filtration, and other areas of continuing and increasing importance to the nuclear industry and to consumers. The dual sponsorship of the meeting (The ANS Reactor Operations Division and the Eastern Idaho Section of the ANS) helped spur a high quality program, a pleasant location, and a high degree of suc cess in technical interchange between the attendees. As guest speaker, we were honored to have Mr. Vince Boyer of Philadelphia Electric Company. Mr. Boyer is both a past chairman of the ANS Reactor Operations Division and a past president of the American Nuclear Society. His views on the nuclear industry and of its current status were informative and interesting.

Decommissioning

Decommissioning PDF

Author: Cynthia Pollock Shea

Publisher: Better English Language Teaching

Published: 1986

Total Pages: 60

ISBN-13:

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The processes and associated dilemmas of nuclear power plant decommissioning are reviewed in this publication. Decommissioning involves the clearing up and disposal of a retired nuclear plant and its equipment of such a way as to safeguard the public from the dangers of radioactivity. Related problem areas are identified and include: (1) closure methods (discussing the options of decontamination and dismantlement, storage, and reaction of a permenent tomb); (2) high-level waste management (identifying spent fuel removal and disposal problems); (3) retired reactor disposal (citing examples of waste management systems employed in the United States and in Europe); (4) economics (providing cost estimates for major expense items); (5) savings mechanisms (proposing efforts to offset future decommissioning costs); and (6) long-term strategies (urging the need for safe disposal and decommissioning research and development programs). (ML)

A NOVEL APPROACH TO SPENT FUEL POOL DECOMMISSIONING.

A NOVEL APPROACH TO SPENT FUEL POOL DECOMMISSIONING. PDF

Author:

Publisher:

Published: 2011

Total Pages:

ISBN-13:

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The Idaho National Laboratory (INL) has been at the forefront of developing methods to reduce the cost and schedule of deactivating spent fuel pools (SFP). Several pools have been deactivated at the INL using an underwater approach with divers. These projects provided a basis for the INL cooperation with the Dresden Nuclear Power Station Unit 1 SFP (Exelon Generation Company) deactivation. It represents the first time that a commercial nuclear power plant (NPP) SFP was decommissioned using this underwater coating process. This approach has advantages in many aspects, particularly in reducing airborne contamination and allowing safer, more cost effective deactivation. The INL pioneered underwater coating process was used to decommission three SFPs with a total combined pool volume of over 900,000 gallons. INL provided engineering support and shared project plans to successfully initiate the Dresden project. This report outlines the steps taken by INL and Exelon to decommission SFPs using the underwater coating process. The rationale used to select the underwater coating process and the advantages and disadvantages are described. Special circumstances are also discussed, such as the use of a remotely-operated underwater vehicle to visually and radiologically map the pool areas that were not readily accessible. A larger project, the INTEC-603 SFP in-situ (grouting) deactivation, is reviewed. Several specific areas where special equipment was employed are discussed and a Lessons Learned evaluation is included.

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