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Banerjee, S.; Hetsroni, G.; Roy, C.M.
Rockwell International Corp., Canoga Park, CA (USA). Energy Technology Engineering Center; California Univ., Santa Barbara, CA (USA). Dept. of Chemical and Nuclear Engineering1989
Rockwell International Corp., Canoga Park, CA (USA). Energy Technology Engineering Center; California Univ., Santa Barbara, CA (USA). Dept. of Chemical and Nuclear Engineering1989
AbstractAbstract
[en] As a first step to understanding the fundamental physical phenomena occurring during natural circulation removal of decay heat in LMFBRs, the code FLOW3D, obtained from the UKAEA, was used to conduct 2-D direct numerical simulations of one of the test runs conducted on the scaled liquid sodium reactor at ETEC. Results and analysis of the simulations are presented. Results indicate that the code captures the physics of the simulated problem. The code is highly optimized and requires about 10 μ-seconds per mesh-cell time-step on a CRAY-XMP. 3 refs., 42 figs
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30 Jun 1989; 56 p; CONTRACT AC03-76SF00700; Available from NTIS, PC A04/MF A01 as DE89016805; OSTI; INIS; US Govt. Printing Office Dep
Record Type
Report
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Progress Report
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