Numerical simulation of thermal diamond filter for working station 1-5 of synchrotron “SKIF

Numerical 3D-simulations of thermal loads of thermal diamond filter for the working station 1-5 of synchrotron “SKIF” has been performed. An efficient version of a water-cooling system of a CVD diamond by means of mini-channels in copper flanges with a total heat release power of 1290 W is presented...

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Bibliographic Details
Published in:Journal of physics. Conference series 2021-12, Vol.2119 (1), p.12130
Main Authors: Vinokurov, V A, Vinokurov, V V, Kabov, O A
Format: Article
Language:English
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Summary:Numerical 3D-simulations of thermal loads of thermal diamond filter for the working station 1-5 of synchrotron “SKIF” has been performed. An efficient version of a water-cooling system of a CVD diamond by means of mini-channels in copper flanges with a total heat release power of 1290 W is presented. The influence of various configurations of the cooling system, different boundary conditions (thermal insulation, radiation heat exchange), water supply pressure on the maximum temperature in diamond wafer has been investigated. The influence of the temperature dependence of the properties of diamond glass has been studied. The maximum temperature on the diamond wafer is found to be 317.6 °C absorbing 1290 W of power correspond to the safe mode for some specific cooling system configuration. The corresponding flow rate of 7 °C cooling water was 13.1 l/min.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/2119/1/012130