Stationary chemical reaction wave in a deformed medium with the finite relaxation time of heat flux

Abstract

A model of propagation of chemical reaction stationary front in a deformed medium with allowance for heat relaxation is proposed. The model takes into account possible matter deformations due to the thermal extension and the difference in properties of a reagent and a product as well as their influence on temperature field. It is shown that the heat flux relaxation and the 'connectedness' of temperature and deformation fields are displayed as changes of heat absorption capacity, effective matter heat conductivity and total thermal effect of chemical reaction.

Original language	English
Pages (from-to)	37-46
Number of pages	10
Journal	Fizika Goreniya i Vzryva
Volume	31
Issue number	3
Publication status	Published - May 1995

ASJC Scopus subject areas

Process Chemistry and Technology
Mechanical Engineering

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title = "Stationary chemical reaction wave in a deformed medium with the finite relaxation time of heat flux",

abstract = "A model of propagation of chemical reaction stationary front in a deformed medium with allowance for heat relaxation is proposed. The model takes into account possible matter deformations due to the thermal extension and the difference in properties of a reagent and a product as well as their influence on temperature field. It is shown that the heat flux relaxation and the 'connectedness' of temperature and deformation fields are displayed as changes of heat absorption capacity, effective matter heat conductivity and total thermal effect of chemical reaction.",

author = "Knyazeva, {A. G.} and Dyukarev, {E. A.}",

year = "1995",

month = may,

language = "English",

volume = "31",

pages = "37--46",

journal = "Fizika Goreniya i Vzryva",

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publisher = "Izdatel'stvo Sibirskogo Otdeleniya Rossiiskoi Akademii Nauk/Publishing House of the Russian Academy of Sciences",

number = "3",

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N2 - A model of propagation of chemical reaction stationary front in a deformed medium with allowance for heat relaxation is proposed. The model takes into account possible matter deformations due to the thermal extension and the difference in properties of a reagent and a product as well as their influence on temperature field. It is shown that the heat flux relaxation and the 'connectedness' of temperature and deformation fields are displayed as changes of heat absorption capacity, effective matter heat conductivity and total thermal effect of chemical reaction.

AB - A model of propagation of chemical reaction stationary front in a deformed medium with allowance for heat relaxation is proposed. The model takes into account possible matter deformations due to the thermal extension and the difference in properties of a reagent and a product as well as their influence on temperature field. It is shown that the heat flux relaxation and the 'connectedness' of temperature and deformation fields are displayed as changes of heat absorption capacity, effective matter heat conductivity and total thermal effect of chemical reaction.

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