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The effect of natural convection on the cooling of the energy inverter

This article focuses on methods of cooling and dissipating thermal energy from electrical components installed in electric vehicles, control centers, information technology, space projects and others. The aim is to research the heat dissipation and the formation of temperature fields of a semiconduc...

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Main Authors: Hrabovský, Peter, Kolková, Zuzana, Belány, Pavol, Kantová, Nikola Čajová, Matušov, Jozef
Format: Conference Proceeding
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creator Hrabovský, Peter
Kolková, Zuzana
Belány, Pavol
Kantová, Nikola Čajová
Matušov, Jozef
description This article focuses on methods of cooling and dissipating thermal energy from electrical components installed in electric vehicles, control centers, information technology, space projects and others. The aim is to research the heat dissipation and the formation of temperature fields of a semiconductor power component installed in closed or tight spaces. The method of cooling the components is based on the method of heat transfer and the cooling technology used. For the design of cooling, it is necessary to know the location and position of the examined component, as well as the possibility of heat dissipation. This introductory part of the heat transfer theory defines the already known methods of heat transfer, on the basis of which the design of the cooling capacity is defined.
doi_str_mv 10.1063/5.0128215
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Convection cooling
Electric components
Electric vehicles
Free convection
Heat transfer
Position (location)
Thermal energy
title The effect of natural convection on the cooling of the energy inverter
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