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Division Spotlight
Operations & Power
Members focus on the dissemination of knowledge and information in the area of power reactors with particular application to the production of electric power and process heat. The division sponsors meetings on the coverage of applied nuclear science and engineering as related to power plants, non-power reactors, and other nuclear facilities. It encourages and assists with the dissemination of knowledge pertinent to the safe and efficient operation of nuclear facilities through professional staff development, information exchange, and supporting the generation of viable solutions to current issues.
Meeting Spotlight
Utility Working Conference and Vendor Technology Expo (UWC 2024)
August 4–7, 2024
Marco Island, FL|JW Marriott Marco Island
Standards Program
The Standards Committee is responsible for the development and maintenance of voluntary consensus standards that address the design, analysis, and operation of components, systems, and facilities related to the application of nuclear science and technology. Find out What’s New, check out the Standards Store, or Get Involved today!
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Nuclear Science and Engineering
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Fusion Science and Technology
Latest News
DOE issues RFI for a spent fuel consolidated interim storage facility
The Department of Energy’s Office of Nuclear Energy has issued a request for information opportunity for the design and construction of a federal consolidated interim storage facility (CISF) for spent nuclear fuel. The DOE is planning on establishing a federal CISF to manage SNF until a permanent repository is available. In May, the DOE received initial approval, known as “Critical Decision-0,” for such a facility.
The deadline for submissions is September 5.
R. Durrer, T.A. Parish, G. Schlapper, R. Carrera
Fusion Science and Technology | Volume 19 | Number 3 | May 1991 | Pages 1337-1341
Result of Large Experiment and Plasma Engineering | doi.org/10.13182/FST91-A29528
Articles are hosted by Taylor and Francis Online.
The IGNITEX experiment is being designed to study the physics of ignited plasmas. Over the service lifetime of the device (two years), it is expected to be pulsed 2,000 times with each pulse producing 150 MW of DT fusion power for approximately five seconds. Neutrons from each pulse will activate the magnet structure, liquid nitrogen in the cryostat and test cell air. Radioactive effluents from IGNITEX will primarily result from activated air, activated liquid nitrogen, and tritium. To provide a perspective for evaluating the doses resulting from the gaseous effluents from IGNITEX, the doses from the gaseous effluents from a 1 MW fission research reactor were also calculated.For both facilities, the primary effluents are airborne. Two dose receptor locations were assumed. The first was taken to be the building nearest to the facility and it was taken to be 400 m distant. The second was the nearest residence and it was taken to be 1.2 km distant. For the dose calculations, the air stability was assumed to be neutral and the dose receptors were assumed to be in the direction of a 4.5 m/sec prevailing wind. All releases were taken to be at ground level. The equations used to calculate the annual doses were taken from Regulatory Guide 1.109. The gaseous effluents from IGNITEX were assumed to consist of 41Ar, 13N, 16N, 14C, and 3H. Effluents from the fission research reactor consisted of 41Ar, gaseous and semi-volatile fission products. Each facility's dose was compared to the 10CFR50 Appendix I limits. In each dose category, with the exception of the thyroid dose the dose resulting from the operation of IGNITEX were more than that of the fission reactor. The increased doses were due primarily to the activated nitrogen releases.