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Fusion Energy
This division promotes the development and timely introduction of fusion energy as a sustainable energy source with favorable economic, environmental, and safety attributes. The division cooperates with other organizations on common issues of multidisciplinary fusion science and technology, conducts professional meetings, and disseminates technical information in support of these goals. Members focus on the assessment and resolution of critical developmental issues for practical fusion energy applications.
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2024 ANS Annual Conference
June 16–19, 2024
Las Vegas, NV|Mandalay Bay Resort and Casino
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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Latest News
NRC updating GEIS rule for new nuclear technology
The Nuclear Regulatory Agency is issuing a proposed generic environmental impact statement (GEIS) for use in reviewing applications for new nuclear reactors.
In an April 17 memo, NRC secretary Carrie Safford wrote that the commission approved NRC staff’s recommendation to publish in the Federal Register a proposed rule amending 10 CFR Part 51, “Environmental Protection Regulations for Domestic Licensing and Related Regulatory Functions.”
O.K. Kveton, H. Yoshida, J.E. Koonce, R. Haange, H. Horikiri, S.K. Sood, C. Fong, K.M. Kalyanam, A. Busigin
Fusion Science and Technology | Volume 28 | Number 3 | October 1995 | Pages 636-640
Tritium Processing | Proceedings of the Fifth Topical Meeting on Tritium Technology in Fission, Fusion, and Isotopic Applications Belgirate, Italy May 28-June 3, 1995 | doi.org/10.13182/FST95-A30475
Articles are hosted by Taylor and Francis Online.
Compared with the earlier isotope separation systems built in Canada, Europe and the USA, the ITER system must accommodate several simultaneous feeds at the extremities of the distillation cascade and process a wide range of operating requirements resulting from the evolving research and technology testing program.1 Even after the program is defined, sufficient flexibility must be retained to accommodate changes expected due to the experimental nature of initial ITER operation. The reliable performance of the ITER water detritiation and isotope separation systems (ISS) and their flexibility must be achieved with minimum tritium inventory and maximum safety. This has required optimization of the system design and improvements in hardware designs for distillation columns, heat exchangers and feed polishing systems. Also the relatively high tritium concentration in water necessitated a new design approach for this part of the process namely the vapour phase catalytic exchange. The new hardware designs simplify the process flow sheet and the ISS cold box internal layout and its external configuration. This paper describes the design features of the ITER Water Detritiation and Isotope Separation system and the parameters that have had the most significant impact on the design.
