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Division Spotlight
Education, Training & Workforce Development
The Education, Training & Workforce Development Division provides communication among the academic, industrial, and governmental communities through the exchange of views and information on matters related to education, training and workforce development in nuclear and radiological science, engineering, and technology. Industry leaders, education and training professionals, and interested students work together through Society-sponsored meetings and publications, to enrich their professional development, to educate the general public, and to advance nuclear and radiological science and engineering.
Meeting Spotlight
2024 ANS Winter Conference and Expo
November 17–21, 2024
Orlando, FL|Renaissance Orlando at SeaWorld
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
Kazakh voters say “yes” to nuclear power
A historic referendum in Kazakhstan this past weekend showed that its citizens strongly support adding nuclear generation to the nation’s energy supply.
R. G. Clemmer, D. K. Sze, P. E. Blackburn, E. VanDeventer, V. A. Maroni
Fusion Science and Technology | Volume 19 | Number 3 | May 1991 | Pages 1612-1618
Material and Tritium | Proceedings of the Ninth Topical Meeting on the Technology of Fusion Energy (Oak Brook, Illinois, October 7-11, 1990) | doi.org/10.13182/FST91-A29572
Articles are hosted by Taylor and Francis Online.
A 2:1 mixture of LiF and BeF2 (FLIBE), is a potential tritium breeder material for fusion reactors, in particular, the Advanced Safe Pool Immersed Reactor (ASPIRE). A limited experimental campaign was conducted in an effort to test the postulates of the ASPIRE concept: namely, that MoF6 is effective in controlling the tritium species by maintaining the TF form and that MoF6 can serve as a source to plate out Mo on surfaces, thereby making the FLIBE system compatible with the corrosive TF. It was demonstrated experimentally that successive additions of MoF6 achieved quantitative (i.e., greater than 99.7%) conversion of H2 to HF. Thus, MoF6 is effective in controlling the tritium species. The degree of conversion of H2 to HF demonstrates that HF does not attack MO to form H2. This supports the postulate that the system is compatible with Mo. Thus, if it were possible to plate out and maintain a coating of Mo on all surfaces in contact with the FLIBE system, the ASPIRE concept could work. Thermodynamic calculations also confirmed that MoF6 should be capable of quantitatively (>99.9%) converting H2 to HF. There is both experimental and theoretical evidence that a number of MoFx species are present in both the gas phase and the FLIBE solution.