A Discussion on Utilization of Heat Pipes and Vapour Chamber Technology as a Primary Device for Heat Extraction from Photon Absorber Surfaces

Suthar, Kamlesh; Den Hartog, Patric; Lurie, Alexander

doi:10.18429/JACoW-MEDSI2016-WEBA04

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RIS citation export for WEBA04: A Discussion on Utilization of Heat Pipes and Vapour Chamber Technology as a Primary Device for Heat Extraction from Photon Absorber Surfaces

TY - CONF
AU - Suthar, K.J.
AU - Den Hartog, P.K.
AU - Lurie, A.M.
ED - Casas, Joan
ED - Schaa, Volker RW
ED - Costa, Isidre
ED - López, David
ED - Prieto, Montserrat
TI - A Discussion on Utilization of Heat Pipes and Vapour Chamber Technology as a Primary Device for Heat Extraction from Photon Absorber Surfaces
J2 - Proc. of MEDSI2016, Barcelona, Spain, 11-16 September 2016
CY - Barcelona, Spain
T2 - Mechanical Engineering Design of Synchrotron Radiation Equipment and Instrumentation Conference
T3 - 9
LA - english
AB - The basic problem for photon absorbers in a particle accelerator is to remove a large quantity of heat from a small space. Heat pipes and vapor chambers excel at precisely this so it is natural to consider them for the application. However, even though this technology has been proven to be an excellent thermal management solution for cooling everything from laptops to satellite shields in space, they have yet to be adopted for use in particle accelerators. The use of heat pipes and vapor chambers are thermal transport devices which work on the principle of capillary-force-driven two-phase flow. These devices are highly customizable and offer very high effective thermal conductivities (5,000-200, 000 W/m/K) depending on many factors including size, shape, and orientation. This paper discusses feasibility of the use of heat pipes and vapor chambers as the primary heat transport devices in particle accelerator photon absorbers. We discuss their limitations and advantages via careful consideration of analysis and simulation results assuming properties described in the literature and manufacturer specifications.
PB - JACoW Publishing
CP - Geneva, Switzerland
SP - 280
EP - 282
KW - ion
KW - photon
KW - radiation
KW - simulation
KW - factory
DA - 2017/06
PY - 2017
SN - 978-3-95450-188-5
DO - doi:10.18429/JACoW-MEDSI2016-WEBA04
UR - http://jacow.org/medsi2016/papers/weba04.pdf
ER -