Accession Number : ADP005099
Title : Exploratory Heat Transfer Studies on Critical Elements of a Proposed 6 GeV Synchrotron,
Corporate Author : ARGONNE NATIONAL LAB IL COMPONENTS TECHNOLOGY DIV
Personal Author(s) : Kuzay,Tuncer M. ; Knapp,Gordon S.
Report Date : OCT 1985
Pagination or Media Count : 9
Abstract : Certain types of insertion devices for angiography can produce extraordinarily large heat fluxes on critical components of a synchrotron beam line and its optics. The shutters, beam splitters, filters, and the first-stage monochromators all are subjected to large fluxes of radiation. The cooling requirements of such beam line components are approached in a comprehensive manner to identify the governing parameters from first principles. Analytical techniques have been used to study various methods of handling the heat loads using both liquid metal and water coolants for various potential heated geometries. It is found that when properly designed, liquid metal cooling can be much more efficient. In addition, composites and low Z surfaces have been considered. Also investigated are the heat transfer problems of the optical stages and rotating monochromators.
Descriptors : *PARTICLE ACCELERATOR COMPONENTS, *COOLING, *HEAT TRANSFER, ANGIOGRAPHY, SYNCHROTRONS, BEAM SPLITTING, FILTERS, MONOCHROMATORS, LIQUID METAL COOLANTS, WATER
Distribution Statement : APPROVED FOR PUBLIC RELEASE