In this paper, infrared radiation exiting plain surfaces with different geometries is numerically simulated. Surfaces under consideration are assumed to have steady uniform heat generation inside. Moreover, the boundaries of the surfaces are considered to be at the surroundings temperature. Infrared radiation is calculated based on the temperature profile determined for the surface. The temperature profile of the surface is determined assuming the two dimensional heat conduction equations to govern the problem. ; The physical domain is transformed into the appropriate computational domain and the governing equation is mapped into the suitable forms in the new coordinate system of variables. After that the temperature profile of the surface is computed, the infrared radiation distribution of the surface is evaluated based on the equations given in the manuscript. The temperature profile as well as the IR images are given in the results section. It is concluded that the maximum value of infrared radiation of the surface occurs at the center. Moreover, it is concluded that among surfaces with equal areas, the one having the largest perimeter has the least value of IR at its center.
Zielona Góra: Uniwersytet Zielonogórski
IJAME, volume 22, number 3 (2017)
Biblioteka Uniwersytetu Zielonogórskiego
Jul 6, 2023
Apr 5, 2023
51
https://zbc.uz.zgora.pl/repozytorium/publication/80367
Edition name | Date |
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A numerical simulation for prediction of infrared radiation emitted from plain surfaces with different geometries | Jul 6, 2023 |
Mahboob, Amir Eskenati, Amir Reza Moradalizadeh, Soheil Jurczak, Paweł - red.
Mehrenberger, Michel Violard, Eric Sokołowski, Jan - ed. Sonnendrücker, Eric - ed.
Ogiołda, Ewa Nowogoński, Ireneusz Leszczyńska, Beata Kuczma, Mieczysław - red.
El Kouifat, Mohammed Khalil Zniker, Houcine Feddal, Ikram Ouaki, Bennaceur Jurczak, Paweł - red.
Bondarenko, Victor Bidyuk, Petro Bernatska, Julia Korbicz, Józef (1951- ) - red. Uciński, Dariusz - red.