Idaho National Laboratory / Fusion Technology Institute / After building / University of California / University of Wisconsin / /
IndustryTerm
law boundary condition / liquid metal bulk tritium concentration / 316L stainless steel / cooling systems / liquid metal surface tritium concentration / secondary systems / low-activation ferritic steel / reduced activation martensitic steel / liquid metal density ~kg0m / ferritic steel structure / chemical sources / liquid metal surface / ferritic steel / thermal energy / liquid metal bulk velocity ~m0s / base metal / steel surface / chemical reactivity / chemical reactions / electricity / activation products / stainless steel / niobium0liquid metal interface / bank / intact cooling systems / martensitic steel / similar martensitic steel / coolant systems / divertor cooling systems / liquid metal / heat transfer systems / manufacturing techniques / radioactive confinement systems / steel temperature / refractory metal alloys / tritium processing plant / fusion device / liquid metal flow / steel structure / radioactive metal dust particles / steel / /
NaturalFeature
He inlet / /
Organization
Center for Energy Research / U.S. Department of Energy / U.S. Securities and Exchange Commission / Idaho National Laboratory / Mechanical and Aerospace Engineering Department / Fusion Technology Institute / University of Wisconsin / University of California / San Diego / /
Position
guard / TMAP model for one sector / /
ProvinceOrState
Wisconsin / California / Idaho / /
Technology
radiation / sublimation / area FUSION SCIENCE AND TECHNOLOGY / 846 FUSION SCIENCE AND TECHNOLOGY / heat transfer / html / thermal insulation / FUSION SCIENCE AND TECHNOLOGY / 842 FUSION SCIENCE AND TECHNOLOGY / 840 FUSION SCIENCE AND TECHNOLOGY / http / 838 FUSION SCIENCE AND TECHNOLOGY / recombination / 844 FUSION SCIENCE AND TECHNOLOGY / /