![]() ![]() These outlet temperatures then define the supporting technical systems and the potential process applications. This report summarizes the current progress of GA commercial HTGR application studies, with emphasis on three basic HTGR heat sources with 750/sup 0/C (1382/sup 0/F), 850/sup 0/C (1562/sup 0/F), and 950/sup 0/C (1742/sup 0/F) core outlet temperatures. ![]() The HTGR high-temperature process heat application is also = , Studies on the application of the HTGR-SC/C for synfuel production are included, along with technology, cost, safety, and plant operability evaluations of the direct and indirect cycle HTGR sensible energy transportation and storage systems. Details of an alternate core support concept for the HTGR process heat application are given, and a conceptual design investigation for a new 250-MW(t) HTGR modular reactor system for process heat application is described. This report describes (1) the advancement of the 2240-MW(t) HTGR-SC/C nuclear heat system and component design (2) resolution of priority tehnical issues (3) recommendations on enhanced safety features for the HTGR-SC/C reference design (4) preparation of long-range program plans and (5) results of studies on the design development of the HTGR process heat direct and indirect cycle nuclear heat source. Technical progress on four variants of the high-temperature gas-cooled reactor (HTGR) is presented with emphasis on the nuclear heat source for the steam cycle cogeneration application. ![]()
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