Numerical study of ignition of a metallized condensed substance by a source embedded into the subsurface layer

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Abstract

A numerical simulation of the ignition of structurally heterogeneous condensed material by a small single particle heated to high temperature, a typical limited heat content source of is performed within the framework of a solid-phase ignition model. The effect of the depth of embedment of the heated particle into the subsurface layer of the metallized material on the integral characteristics of the ignition is examined.

Original languageEnglish
Pages (from-to)269-275
Number of pages7
JournalRussian Journal of Physical Chemistry B
Volume7
Issue number3
DOIs
Publication statusPublished - 1 May 2013

Fingerprint

ignition
Ignition
solid phases
Enthalpy
enthalpy
Computer simulation
simulation
Temperature

Keywords

  • embedment
  • heat transfer
  • ignition
  • local energy source
  • metallized condensed material
  • numerical simulation
  • solid-phase model

ASJC Scopus subject areas

  • Physical and Theoretical Chemistry

Cite this

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abstract = "A numerical simulation of the ignition of structurally heterogeneous condensed material by a small single particle heated to high temperature, a typical limited heat content source of is performed within the framework of a solid-phase ignition model. The effect of the depth of embedment of the heated particle into the subsurface layer of the metallized material on the integral characteristics of the ignition is examined.",
keywords = "embedment, heat transfer, ignition, local energy source, metallized condensed material, numerical simulation, solid-phase model",
author = "Glushkov, {D. O.} and Kuznetsov, {G. V.} and Strizhak, {P. A.}",
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AU - Kuznetsov, G. V.

AU - Strizhak, P. A.

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AB - A numerical simulation of the ignition of structurally heterogeneous condensed material by a small single particle heated to high temperature, a typical limited heat content source of is performed within the framework of a solid-phase ignition model. The effect of the depth of embedment of the heated particle into the subsurface layer of the metallized material on the integral characteristics of the ignition is examined.

KW - embedment

KW - heat transfer

KW - ignition

KW - local energy source

KW - metallized condensed material

KW - numerical simulation

KW - solid-phase model

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JF - Russian Journal of Physical Chemistry B

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