Numerical analysis of effective conditions of chemical reaction suppression during typical forest fuel material combustion

Research output: Chapter in Book/Report/Conference proceedingChapter

1 Citation (Scopus)

Abstract

Three typical solution schemes of adjoint problems of heat transfer, phase transformations and chemical reaction at the forest fuel material surface were analyzed in this work. Characteristic times of thermal decomposition reaction suppression of forest fuel materials (needles of pine and fir-tree, leaves of birch) were presented for concerned heat transfer models. Effective heat exchange conditions which are characterized by minimal times of chemical reaction suppression in forest fuel materials and minimal extinguishing agent's expenditure were established.

Original languageEnglish
Title of host publicationApplied Mechanics and Materials
PublisherTrans Tech Publications Ltd
Pages267-271
Number of pages5
Volume692
ISBN (Print)9783038353300
DOIs
Publication statusPublished - 2014

Publication series

NameApplied Mechanics and Materials
Volume692
ISSN (Print)16609336
ISSN (Electronic)16627482

Fingerprint

Numerical analysis
Chemical reactions
Heat transfer
Needles
Pyrolysis
Phase transitions
Hot Temperature

Keywords

  • Film
  • Fire Fighting
  • Forest Fuel Material
  • Water
  • Water vapor. Droplet

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Numerical analysis of effective conditions of chemical reaction suppression during typical forest fuel material combustion. / Zhdanova, Alena Olegovna; Kuznetsov, Genii V.; Strizhak, Pavel A.

Applied Mechanics and Materials. Vol. 692 Trans Tech Publications Ltd, 2014. p. 267-271 (Applied Mechanics and Materials; Vol. 692).

Research output: Chapter in Book/Report/Conference proceedingChapter

Zhdanova, Alena Olegovna ; Kuznetsov, Genii V. ; Strizhak, Pavel A. / Numerical analysis of effective conditions of chemical reaction suppression during typical forest fuel material combustion. Applied Mechanics and Materials. Vol. 692 Trans Tech Publications Ltd, 2014. pp. 267-271 (Applied Mechanics and Materials).
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