On the computational identification of temperature-variable characteristics of heat transfer
- Applications of Mathematics 2013, Publisher: Institute of Mathematics AS CR(Prague), page 215-224
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topVala, Jiří. "On the computational identification of temperature-variable characteristics of heat transfer." Applications of Mathematics 2013. Prague: Institute of Mathematics AS CR, 2013. 215-224. <http://eudml.org/doc/287794>.
@inProceedings{Vala2013,
abstract = {The mathematical analysis of a heat equation and its solutions is a standard part of most textbook of applied mathematics and computational mechanics. However, serious problems from engineering practice do not respect formal simplifications of such analysis, namely at high temperatures, for phase-change materials, etc. This paper, motivated by the material design and testing of a high-temperature thermal accumulator, as a substantial part of the Czech-Swedish project of an original equipment for exploiting solar energy using optical fibres, demonstrates the possibility of both direct and inverse analysis, physically transparent and mathematically correct, paying attention to the set of basic temperature-variable characteristics of thermal transfer.},
author = {Vala, Jiří},
booktitle = {Applications of Mathematics 2013},
keywords = {pseudomonotone mapping; radiation effect; inverse problem},
location = {Prague},
pages = {215-224},
publisher = {Institute of Mathematics AS CR},
title = {On the computational identification of temperature-variable characteristics of heat transfer},
url = {http://eudml.org/doc/287794},
year = {2013},
}
TY - CLSWK
AU - Vala, Jiří
TI - On the computational identification of temperature-variable characteristics of heat transfer
T2 - Applications of Mathematics 2013
PY - 2013
CY - Prague
PB - Institute of Mathematics AS CR
SP - 215
EP - 224
AB - The mathematical analysis of a heat equation and its solutions is a standard part of most textbook of applied mathematics and computational mechanics. However, serious problems from engineering practice do not respect formal simplifications of such analysis, namely at high temperatures, for phase-change materials, etc. This paper, motivated by the material design and testing of a high-temperature thermal accumulator, as a substantial part of the Czech-Swedish project of an original equipment for exploiting solar energy using optical fibres, demonstrates the possibility of both direct and inverse analysis, physically transparent and mathematically correct, paying attention to the set of basic temperature-variable characteristics of thermal transfer.
KW - pseudomonotone mapping; radiation effect; inverse problem
UR - http://eudml.org/doc/287794
ER -
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