Focusing on the patterns and characteristics of extraordinarily severe gas explosion accidents in Chinese coal mines

•This study mainly focuses on extraordinarily severe gas explosion accidents (ESGEAs) in Chinese coal mines.•Disorganized ventilation fan management and illegal blasting were the most prominent causes of ESGEAs.•ESGEAs are linked with the operating locations, occurrence time, regions and ownership o...

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Veröffentlicht in:	Process safety and environmental protection 2018-07, Vol.117, p.390-398
Hauptverfasser:	Zhang, Jinjia, Cliff, David, Xu, Kaili, You, Greg
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Sprache:	eng
Schlagworte:	Accident statistics Accidents Accumulation Blasting (explosive) Coal mine Coal mines Coal mining Countermeasures Explosions Extraordinarily severe accidents Gas explosion Ignition Occupational safety Statistical analysis Statistical methods Ventilation
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creator	Zhang, Jinjia Cliff, David Xu, Kaili You, Greg
description	•This study mainly focuses on extraordinarily severe gas explosion accidents (ESGEAs) in Chinese coal mines.•Disorganized ventilation fan management and illegal blasting were the most prominent causes of ESGEAs.•ESGEAs are linked with the operating locations, occurrence time, regions and ownership of the coal mines. Extraordinarily severe gas explosion accidents (ESGEAs) (thirty fatalities or more in one accident) have a high occurrence frequency in Chinese coal mines. There are 126 ESGEAs that occurred in China from 1950 to 2015, and they were investigated through statistical methods in this study to review the overall circumstances and to provide quantitative information on ESGEAs. Statistical characteristics about accident-related factors, such as gas accumulation, ignition sources, operating locations, accident time, coal mine regions and coal mine ownership, were assessed in this paper. The statistical analysis shows that disorganized ventilation fan management was the most frequent cause of gas accumulation in ESGEAs, while illegal blasting was the most prominent cause of the ignition source in ESGEAs. Furthermore, ESGEAs were found to occur frequently in certain provinces (e.g., Shanxi, Henan and Heilongjiang) and during November and December of the year. Moreover, most accidents and the largest death tolls generally occur in state-owned coal mines. Based on the results of statistical studies, some countermeasures were proposed in this study.
doi_str_mv	10.1016/j.psep.2018.05.002
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Extraordinarily severe gas explosion accidents (ESGEAs) (thirty fatalities or more in one accident) have a high occurrence frequency in Chinese coal mines. There are 126 ESGEAs that occurred in China from 1950 to 2015, and they were investigated through statistical methods in this study to review the overall circumstances and to provide quantitative information on ESGEAs. Statistical characteristics about accident-related factors, such as gas accumulation, ignition sources, operating locations, accident time, coal mine regions and coal mine ownership, were assessed in this paper. The statistical analysis shows that disorganized ventilation fan management was the most frequent cause of gas accumulation in ESGEAs, while illegal blasting was the most prominent cause of the ignition source in ESGEAs. Furthermore, ESGEAs were found to occur frequently in certain provinces (e.g., Shanxi, Henan and Heilongjiang) and during November and December of the year. Moreover, most accidents and the largest death tolls generally occur in state-owned coal mines. Based on the results of statistical studies, some countermeasures were proposed in this study.</description><identifier>ISSN: 0957-5820</identifier><identifier>EISSN: 1744-3598</identifier><identifier>DOI: 10.1016/j.psep.2018.05.002</identifier><language>eng</language><publisher>Rugby: Elsevier B.V</publisher><subject>Accident statistics ; Accidents ; Accumulation ; Blasting (explosive) ; Coal mine ; Coal mines ; Coal mining ; Countermeasures ; Explosions ; Extraordinarily severe accidents ; Gas explosion ; Ignition ; Occupational safety ; Statistical analysis ; Statistical methods ; Ventilation</subject><ispartof>Process safety and environmental protection, 2018-07, Vol.117, p.390-398</ispartof><rights>2018 Institution of Chemical Engineers</rights><rights>Copyright Elsevier Science Ltd. 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Extraordinarily severe gas explosion accidents (ESGEAs) (thirty fatalities or more in one accident) have a high occurrence frequency in Chinese coal mines. There are 126 ESGEAs that occurred in China from 1950 to 2015, and they were investigated through statistical methods in this study to review the overall circumstances and to provide quantitative information on ESGEAs. Statistical characteristics about accident-related factors, such as gas accumulation, ignition sources, operating locations, accident time, coal mine regions and coal mine ownership, were assessed in this paper. The statistical analysis shows that disorganized ventilation fan management was the most frequent cause of gas accumulation in ESGEAs, while illegal blasting was the most prominent cause of the ignition source in ESGEAs. Furthermore, ESGEAs were found to occur frequently in certain provinces (e.g., Shanxi, Henan and Heilongjiang) and during November and December of the year. 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Extraordinarily severe gas explosion accidents (ESGEAs) (thirty fatalities or more in one accident) have a high occurrence frequency in Chinese coal mines. There are 126 ESGEAs that occurred in China from 1950 to 2015, and they were investigated through statistical methods in this study to review the overall circumstances and to provide quantitative information on ESGEAs. Statistical characteristics about accident-related factors, such as gas accumulation, ignition sources, operating locations, accident time, coal mine regions and coal mine ownership, were assessed in this paper. The statistical analysis shows that disorganized ventilation fan management was the most frequent cause of gas accumulation in ESGEAs, while illegal blasting was the most prominent cause of the ignition source in ESGEAs. Furthermore, ESGEAs were found to occur frequently in certain provinces (e.g., Shanxi, Henan and Heilongjiang) and during November and December of the year. 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subjects	Accident statistics Accidents Accumulation Blasting (explosive) Coal mine Coal mines Coal mining Countermeasures Explosions Extraordinarily severe accidents Gas explosion Ignition Occupational safety Statistical analysis Statistical methods Ventilation
title	Focusing on the patterns and characteristics of extraordinarily severe gas explosion accidents in Chinese coal mines
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