Concentration organic components in the hydrocarbon fuel particles conditions and characteristic of ignition

Vladimir Salomatov, Semen Syrodoy, Nadegda Gutareva

Research output: Contribution to journalArticle

11 Citations (Scopus)

Abstract

The problem of particle ignition coal-water fuel (WCF), located in the high-flow environment has been solved numerically. The flow of the main processes of joint thermal treatment (thermal conductivity, evaporation, thermal decomposition, chemical reaction of vapor and carbon) has been taken into account. Set the scale effect of the concentration of the organic portion of the fuel on the dynamics of particle ignition of fuel. The obtained results ignition delay time values are coordinated well with published experimental data.

Original languageEnglish
Article number01018
JournalEPJ Web of Conferences
Volume76
DOIs
Publication statusPublished - 2014
EventConference on Thermo-Physical Basis of Energy Technologies - Tomsk, Russian Federation
Duration: 16 Oct 201418 Oct 2014

Fingerprint

hydrocarbon fuels
ignition
scale effect
coal
thermal decomposition
chemical reactions
thermal conductivity
time lag
evaporation
vapors
carbon
water

ASJC Scopus subject areas

  • Physics and Astronomy(all)

Cite this

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title = "Concentration organic components in the hydrocarbon fuel particles conditions and characteristic of ignition",
abstract = "The problem of particle ignition coal-water fuel (WCF), located in the high-flow environment has been solved numerically. The flow of the main processes of joint thermal treatment (thermal conductivity, evaporation, thermal decomposition, chemical reaction of vapor and carbon) has been taken into account. Set the scale effect of the concentration of the organic portion of the fuel on the dynamics of particle ignition of fuel. The obtained results ignition delay time values are coordinated well with published experimental data.",
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AU - Syrodoy, Semen

AU - Gutareva, Nadegda

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AB - The problem of particle ignition coal-water fuel (WCF), located in the high-flow environment has been solved numerically. The flow of the main processes of joint thermal treatment (thermal conductivity, evaporation, thermal decomposition, chemical reaction of vapor and carbon) has been taken into account. Set the scale effect of the concentration of the organic portion of the fuel on the dynamics of particle ignition of fuel. The obtained results ignition delay time values are coordinated well with published experimental data.

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