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https://doi.org/10.17794/rgn.2021.2.10

DYNAMICS OF MOTION OF GASES FROM A SOURCE OF SPONTANEOUS COMBUSTION OF COAL IN MINE WORKINGS

Viktor Kostenko ; Donetsk National Technical University, 2, Shybankova Square, Pokrovsk, Donetsk region, 85300, Ukraine
Yuriy Gamiy ; The Public Militarized Mine-Rescue Service, 1, Robochyi Lane, Myrnohrad, 85323, Ukraine
Tetiana Kostenko orcid id orcid.org/0000-0001-9426-8320 ; Cherkasy Institute of Fire Safety named after Chornobyl Heroes of National University of Civil Defence of Ukraine, 8, Onoprienko Street, Cherkasy, 18034, Ukraine
Sergii Tsvirkun ; Cherkasy Institute of Fire Safety named after Chornobyl Heroes of National University of Civil Defence of Ukraine, 8, Onoprienko Street, Cherkasy, 18034, Ukraine
Maksym Udovenko ; Cherkasy Institute of Fire Safety named after Chornobyl Heroes of National University of Civil Defence of Ukraine, 8, Onoprienko Street, Cherkasy, 18034, Ukraine


Puni tekst: engleski pdf 1.841 Kb

str. 109-117

preuzimanja: 499

citiraj


Sažetak

The object of this paper is to study the specificity of the dynamics of carbon monoxide in mining to determine the location of the source of coal self-heating or spontaneous combustion. The Fire Dynamics Simulator software package was used to model the gas hazard of coal mine workings. Given the typical details for the western coal basin of Donbas geo metric dimensions of workings, properties of coal, etc., a model of a fragment of emergency mining of a coal mine was created, which allows for the display of geometric and physical similarity to processes in actual mine workings. The results of the simulation for the studied scenarios with different air supply systems related to the detection and location of sources of self-heating or spontaneous combustion in the coal mine workings were obtained and analysed. It was established that low-density fire gases are concentrated in the vault of the workings, where they slowly dissolve in the air, with the dissolution process being linear. It was revealed that air velocity up to 0.67 to 0.7 m/s contributes to the formation of fire gas flows, which move towards the ventilation flow, almost without mixing, which is referred to as bifurcation. Numerical parameters of fire gas dynamics in near-real conditions were established, which can become a basis for the detection and location of sources of endogenous thermodynamic processes in mine workings.

Ključne riječi

Underground fires; simulation; carbon monoxide; Fire Dynamics Simulator; mine working; coal; spontaneous combustion

Hrčak ID:

254158

URI

https://hrcak.srce.hr/254158

Datum izdavanja:

21.3.2021.

Podaci na drugim jezicima: hrvatski

Posjeta: 1.421 *