Solution stationnaire du système d'équations de la radiation et de la température dans l'air

Messaadia, Nawel; Yashima, Hisao Fujita

Serdica Mathematical Journal (2013)

  • Volume: 39, Issue: 1, page 17-36
  • ISSN: 1310-6600

Abstract

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2010 Mathematics Subject Classification: 35Q79 (35J61, 86A10).We consider the integro-differential equation system which describes the intensity of the radiation and the temperature of the air in a domain of R^3. Supposing that the coefficients of absorbation and emission of radiation are small even if they depend on the position, we prove the existence of a stationary solution of the equation system in a bounded domain.

How to cite

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Messaadia, Nawel, and Yashima, Hisao Fujita. "Solution stationnaire du système d'équations de la radiation et de la température dans l'air." Serdica Mathematical Journal 39.1 (2013): 17-36. <http://eudml.org/doc/294973>.

@article{Messaadia2013,
abstract = {2010 Mathematics Subject Classification: 35Q79 (35J61, 86A10).We consider the integro-differential equation system which describes the intensity of the radiation and the temperature of the air in a domain of R^3. Supposing that the coefficients of absorbation and emission of radiation are small even if they depend on the position, we prove the existence of a stationary solution of the equation system in a bounded domain.},
author = {Messaadia, Nawel, Yashima, Hisao Fujita},
journal = {Serdica Mathematical Journal},
keywords = {Radiation; air temperature; integro-differential equation system},
language = {fre},
number = {1},
pages = {17-36},
publisher = {Institute of Mathematics and Informatics Bulgarian Academy of Sciences},
title = {Solution stationnaire du système d'équations de la radiation et de la température dans l'air},
url = {http://eudml.org/doc/294973},
volume = {39},
year = {2013},
}

TY - JOUR
AU - Messaadia, Nawel
AU - Yashima, Hisao Fujita
TI - Solution stationnaire du système d'équations de la radiation et de la température dans l'air
JO - Serdica Mathematical Journal
PY - 2013
PB - Institute of Mathematics and Informatics Bulgarian Academy of Sciences
VL - 39
IS - 1
SP - 17
EP - 36
AB - 2010 Mathematics Subject Classification: 35Q79 (35J61, 86A10).We consider the integro-differential equation system which describes the intensity of the radiation and the temperature of the air in a domain of R^3. Supposing that the coefficients of absorbation and emission of radiation are small even if they depend on the position, we prove the existence of a stationary solution of the equation system in a bounded domain.
LA - fre
KW - Radiation; air temperature; integro-differential equation system
UR - http://eudml.org/doc/294973
ER -

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