As a baseline for the mirror ETR, the Fusion Power Demonstration (FPD) concept has been pursued at Lawrence Livermore National Laboratory (LLNL) in cooperation with Grumman Aerospace, TRW, and the Idaho National Engineering Laboratory. General Dynamics and Grumman Aerospace studied two of these systems, the high-field choke coil and the halo pump/direct converter, in great detail and their findings are presented in this = ,ĭeveloping a definition of an engineering test reactor (ETR) is a current goal of the Office of Fusion Energy (OFE). These issues involve subsystems or components, which because of their cost or state of technology can have a significant impact on our ability to meet FPD's mission requirements on the assumed schedule. As part of the FPD study, we also identified and explored issues critical to the construction of an Engineering Test Reactor (ETR). The FPD-I configuration employs the same magnet set used in the FY83 FPD study, whereas the FPD-II magnets are a new, much smaller set chosen to help reduce the capital cost of the system. The two configurations that we have studied are based on the MARS magnet configuration and are labeled FPD-I and FPD-II. In addition to these design specific studies, we also assembled a mirror-systems computer code to help optimize future device designs. During this first phase, we investigated two configurations, performed detailed studies of major components, and identified and examined critical issues. In this report we present a summary of the first phase of the Fusion Power Demonstration (FPD) design study.
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