Mathematical modeling of heat-trapping properties of a developed radiator surface in mechanical engineering

In this work the research of heat-removing properties of areas of extended surfaces, for example, of finned and needle radiators for assessment of efficiency of distribution of a thermal field and heat extraction is described. Also the description of the carried-out computational modeling is provide...

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Bibliographic Details
Published in:E3S web of conferences 2021, Vol.273, p.7018
Main Authors: Chernov, Nikolay, Palii, Alexander, Tolmacheva, Larisa, Tomilin, Konstantin, Kritskiy, Mikhail
Format: Article
Language:English
Subjects:
Computer applications
Efficiency
Electronic devices
Electronic equipment
Heat
Heat sinks
Heat transfer
Heat treatment
Mathematical models
Mechanical engineering
Microprocessors
Radiators
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Summary:In this work the research of heat-removing properties of areas of extended surfaces, for example, of finned and needle radiators for assessment of efficiency of distribution of a thermal field and heat extraction is described. Also the description of the carried-out computational modeling is provided in the Fluent processor of universal program system of the final and element analysis Ansys. The relevance of the selected subject is confirmed by the fact that one of the most important and difficult tasks arising when developing the electronic equipment is a withdrawal of heat generated by it. At a current steady trend in reduction of dimensions of electronic devices this problem does not disappear, and opposite, becomes more and more sharp, and that is stronger, than device high power less its physical volume, and not only the efficiency of heat extraction, but also dimensions and, of course, reliability of operation of electronic devices depends on constructions of heat-removing elements. In work the conclusion is drawn that for a solution of a complex problem of assessment of efficiency of the heat sink for the purpose of decrease in temperature of heatterminated element, it is necessary to use electrothermal analogy.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/202127307018