%A"Leger, D" %A"Dinner, P" %A"Yoshida, H [and others]" %D1991 %I; International Atomic Energy Agency, Vienna (Austria) %2 %J[] %K70 PLASMA PHYSICS AND FUSION TECHNOLOGY, BREEDING BLANKETS, CERAMICS, LITHIUM, SALTS, FUEL CYCLE, SPECIFICATIONS, ITER TOKAMAK, EXPERIMENT PLANNING, REACTOR SAFETY, LEAD, TRITIUM RECOVERY, EXHAUST SYSTEMS, FUEL MANAGEMENT, ISOTOPE SEPARATION, THERMONUCLEAR REACTOR FUELING, VACUUM PUMPS, 700480, COMPONENT DEVELOPMENT, MATERIALS STUDIES %PMedium: X; Size: 221 p. %TITER fuel cycle %XResulting from the Conceptual Design Activities (1988-1990) by the parties involved in the International Thermonuclear Experimental Reactor (ITER) project, this document summarizes the design requirements and the Conceptual Design Descriptions for each of the principal subsystems and design options of the ITER Fuel Cycle conceptual design. The ITER Fuel Cycle system provides for the handling of all tritiated water and gas mixtures on ITER. The system is subdivided into subsystems for fuelling, primary (torus) vacuum pumping, fuel processing, blanket tritium recovery, and common processes (including isotopic separation, fuel management and storage, and processes for detritiation of solid, liquid, and gaseous wastes). After an introduction describing system function and conceptual design procedure, a summary of the design is presented including a discussion of scope and main parameters, and the fuel design options for fuelling, plasma chamber vacuum pumping, fuel cleanup, blanket tritium recovery, and auxiliary and common processes. Design requirements are defined and design descriptions are given for the various subsystems (fuelling, plasma vacuum pumping, fuel cleanup, blanket tritium recovery, and auxiliary/common processes). The document ends with sections on fuel cycle design integration, fuel cycle building layout, safety considerations, a summary of the research and development programme, costing, and conclusions. Refs, figs and tabs. %0Miscellaneous %NINIS-mf-13063;Other: ON: DE92615479; TRN: XA9130326015809 %1 %CIAEA %Rhttps://doi.org/ Other: ON: DE92615479; TRN: XA9130326015809 INIS %GEnglish