HHT Nuclear Power Plant with High Temperature Reactor and Helium Turbine: HHT Project. Investigations on the low enriched uranium Fuel cycle

BBC AG Brown Boveri (Germany); Brown Boveri & Cie AG (Germany); Bonnard & Gardel S.A. (Switzerland); Eidg. Institut für Reaktorforschung (Switzerland); Gebrüder Sulzer AG (Switzerland); Gesellschaft Für Hochtemperaturreaktor-Technik mbH (Germany); Hochtemperatur Reaktorbau GmbH (Germany); Kernforschungsanlage Jülich GmbH (Germany); Nuklear Chemie und Metallurgie GmbH (Germany); Schweizerische Aluminium AG (Switzerland)

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HHT Nuclear Power Plant with High Temperature Reactor and Helium Turbine: HHT Project. Investigations on the low enriched uranium Fuel cycle

BBC AG Brown Boveri (Germany); Brown Boveri & Cie AG (Germany); Bonnard & Gardel S.A. (Switzerland); Eidg. Institut für Reaktorforschung (Switzerland); Gebrüder Sulzer AG (Switzerland); Gesellschaft Für Hochtemperaturreaktor-Technik mbH (Germany); Hochtemperatur Reaktorbau GmbH (Germany); Kernforschungsanlage Jülich GmbH (Germany); Nuklear Chemie und Metallurgie GmbH (Germany); Schweizerische Aluminium AG (Switzerland)1980

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AbstractAbstract

[en] Automatic translation: Introduction: The commercial uranium enrichment facilities are Designed for a maximum enrichment of 3 - 5% U-235 in accordance with the requirements of the light water reactors mainly used today. Hence were for the high temperature reactor fuel cycles studied that aim to be highly enriched Avoid uranium. For economical solutions are However, in this case, too, a degree of enrichment of 5 - 13% U-235 is required, which is significantly above the usual ones in the light water reactor fuel cycle lie.

[de]

Einleitung: Die kommerziellen Anlagen zur Urananreicherung sind entsprechend dem Bedarf der heute vorwiegend eingesetzten Leichtwasserreaktoren für eine maximale Anreicherung auf 3 - 5 % U-235 ausgelegt. Daher wurden für den Hochtemperaturreaktor Brennstoffkreisläufe untersucht, die zum Ziel haben, hoch angereichertes Uran zu vermeiden. Für wirtschaftliche Lösungen sind jedoch auch in diesem Fall mit 5 - 13 % U-235 Anreicherungsgrade erforderlich, die wesentlich über den im Leichtwasserreaktor-Brennstoffkreislauf üblichen liegen.

Original Title

HHT Kernkraftwerk mit Hochtemperaturreaktor und Heliumturbine: HHT-Projekt. Untersuchungen über den niedrig angereicherten Uran Brennstoffzyklus

Primary Subject

SPECIFIC NUCLEAR REACTORS AND ASSOCIATED PLANTS (S21)

Secondary Subject

NUCLEAR FUEL CYCLE AND FUEL MATERIALS (S11)

Source

Jun 1980; 63 p; HRB-BA--3142; Country of input: International Atomic Energy Agency (IAEA); Document from Juelich Preservation Project; Figs., tabs.

Record Type

Report

Report Number

KFA-HHT--036

Country of publication

Germany

Descriptors (DEI)

ENRICHMENT, FEDERAL REPUBLIC OF GERMANY, FORSCHUNGSZENTRUM JUELICH, FUEL CYCLE, HELIUM, HTGR TYPE REACTORS, ISOTOPE SEPARATION, NUCLEAR FUELS, NUCLEAR POWER PLANTS, SLIGHTLY ENRICHED URANIUM, TURBINES, URANIUM 235, WATER COOLED REACTORS, WATER MODERATED REACTORS

LanguageLanguage

German

Reference NumberReference Number

52056984

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