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NextGen MURR to partner with Burns & McDonnell
The University of Missouri has entered a consulting agreement with construction firm Burns & McDonnell to develop NextGen MURR, a new 20-MW light water research reactor that will produce medical isotopes for cancer treatments and theranostics and will be used to conduct neutron science research.
C. P. C. Wong, R. J. Bastaz, D. G. Whyte, W. R. Wampler, W. P. West
Fusion Science and Technology | Volume 30 | Number 3 | December 1996 | Pages 694-698
Divertor Design and Experiments | doi.org/10.13182/FST96-A11963017
Articles are hosted by Taylor and Francis Online.
Using the DiMES mechanism at DIII–D, erosion rates of graphite, and metallic coatings of Be, V, Mo, and W have been measured under different plasma operating conditions. The measured net erosion rate for C is substantial (16 nm/s) during ELMing H–mode at a heat flux of 2 MW/m2. Measured gross erosion rates of the metals are lower than expected from sputtering yields, most likely due to heavy surface contamination by carbon. The measured erosion of W is substantially lower than the other materials, and when account is taken for redeposition, it is shown to be a viable candidate for the Starlite reactor's divertor.
