High power electronic devices cooling at minimum ventilation power |
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Authors: | Giampietro Fabbri |
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Institution: | (1) Department of Energetic, Nuclear, and Environmental Control Engineering, University of Bologna, Viale Risorgimento 2, 40136 Bologna, Italy |
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Abstract: | In the present work, the cooling of a high power electronic device is studied. The device is in contact with a heat dissipator
crossed by air. The air motion through the dissipator is forced by a fan whose supplied power is to be minimized. A finite
element dynamic model of the dissipator is firstly created, taking geometrical and physical properties into account as well
as steady state experimental data. A simplified model is then obtained, which reproduces the time pattern of the maximum dissipator
temperature as a response of the thermal flux removed from the electronic device and the mass flow rate of the air. Afterwards,
the simplified model is utilized to build a control system which allows the electronic device to be correctly cooled at minimum
air ventilation power during transition to steady states. Genetic algorithms are used to find the parameters of the finite
element model and of the control system. Some functioning conditions of the electronic device are lastly considered and discussed. |
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Keywords: | |
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