岩巷掘进工作面的危险源辨识与评价
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摘要
掘进工作面是矿井事故的多发地点,事故的发生严重威胁煤矿职工的生命安全和煤炭工业的可持续发展。为了有效控制掘进工作面事故的发生,必须建立完善的安全评价体系。因此,构建准确、合理、有效的岩巷掘进工作面的安全综合评价至关重要。
本文以确定岩巷掘进工作面安全综合评价为目的,以掘进施工阶段为研究对象,通过掘进工作面的三类危险源理论,即固有危险源因素、诱发危险源因素、组织管理因素,对掘进工作面生产系统中存在的危险因素进行辨识与分析,建立了合理、有效的掘进工作面安全综合评价指标体系。通过对指标的量化处理,达到评价指标体系的实用性、可操作性。首先,采用专家调查表法和层次分析法,确定了各指标的权值;然后,采用专家打分法确定第三级指标的隶属度;最后,运用模糊综合评价方法,对岩巷掘进工作面进行安全综合评价。
在现场应用中,将此评价体系应用于新疆焦煤集团艾维尔沟矿区,1930煤矿矿井扩建中的巷道掘进工作面安全评价过程:首先,依据煤矿有关技术标准和规程,编制了安全检查表,经过专家对检查表现场打分确定了各指标的隶属度;然后,利用模糊综合评价计算方法,计算出各个指标的评价结果,得出系统总得分为79.75,即得出该工作面安全等级为“好”,与实际安全情况相符合,并根据评价的结果,结合安全检查表中一般,差,很差项,提出了改进措施。并体现该体系科学、简单又实用,在安全评价工作中具有重要的指导意义。
Excavation accidents are apt to happen in excavation working face. Accidents seriousthreat of coal mine worker lives and the sustainable development of the coal industry. In orderto effectively control heading face accidents, must establish perfect safety evaluation system.Therefore, constructing the accurate and reasonable and effective rock heading the safetyevaluation of working face is very important.
This paper to determine the safety evaluation of rock heading face as the purpose, thetunneling construction stage as the research object, and through the excavation work threehazard theory, namely the inherent hazard factors, induce hazard factors, organization andmanagement factors of production systems exist tunneling faces the risk factors forrecognition and analysis, established a reasonable and effective heading face the safetyevaluation index system. Based on the quantitative processing, achieve index evaluation indexsystem of practical, operability. First, adopts expert questionnaire method and analytichierarchy process (ahp), to determine the weights of each index; Then, through expert scoringmethod is used to determine the membership grade iii index; Finally, the fuzzycomprehensive evaluation method for rock heading face, security comprehensive evaluation.In field application, will this evaluation system applied to xinjiang coking coal groupYiWeiEr ditch mining coal mine, 1930 the tunnel heading face extension safety evaluationprocess: first, according to relevant technical standards and procedures to coal, composing thesafety checklist for inspection, after experts identify various performance field index scoremembership; Then, using a fuzzy comprehensive evaluation calculation method to calculateeach index evaluation result, draw system 79.75, namely has divided into that of the securitylevel for mining "good",which well coincide with the actual situation. Based on evaluation results and content of“ordinary”、“poor”and“very poor”of safety check list, improvementmeasues are put forward. This system is scientific,easy and practical, which makes it havegreat importance during the work of safety evaluating.
本文以确定岩巷掘进工作面安全综合评价为目的,以掘进施工阶段为研究对象,通过掘进工作面的三类危险源理论,即固有危险源因素、诱发危险源因素、组织管理因素,对掘进工作面生产系统中存在的危险因素进行辨识与分析,建立了合理、有效的掘进工作面安全综合评价指标体系。通过对指标的量化处理,达到评价指标体系的实用性、可操作性。首先,采用专家调查表法和层次分析法,确定了各指标的权值;然后,采用专家打分法确定第三级指标的隶属度;最后,运用模糊综合评价方法,对岩巷掘进工作面进行安全综合评价。
在现场应用中,将此评价体系应用于新疆焦煤集团艾维尔沟矿区,1930煤矿矿井扩建中的巷道掘进工作面安全评价过程:首先,依据煤矿有关技术标准和规程,编制了安全检查表,经过专家对检查表现场打分确定了各指标的隶属度;然后,利用模糊综合评价计算方法,计算出各个指标的评价结果,得出系统总得分为79.75,即得出该工作面安全等级为“好”,与实际安全情况相符合,并根据评价的结果,结合安全检查表中一般,差,很差项,提出了改进措施。并体现该体系科学、简单又实用,在安全评价工作中具有重要的指导意义。
Excavation accidents are apt to happen in excavation working face. Accidents seriousthreat of coal mine worker lives and the sustainable development of the coal industry. In orderto effectively control heading face accidents, must establish perfect safety evaluation system.Therefore, constructing the accurate and reasonable and effective rock heading the safetyevaluation of working face is very important.
This paper to determine the safety evaluation of rock heading face as the purpose, thetunneling construction stage as the research object, and through the excavation work threehazard theory, namely the inherent hazard factors, induce hazard factors, organization andmanagement factors of production systems exist tunneling faces the risk factors forrecognition and analysis, established a reasonable and effective heading face the safetyevaluation index system. Based on the quantitative processing, achieve index evaluation indexsystem of practical, operability. First, adopts expert questionnaire method and analytichierarchy process (ahp), to determine the weights of each index; Then, through expert scoringmethod is used to determine the membership grade iii index; Finally, the fuzzycomprehensive evaluation method for rock heading face, security comprehensive evaluation.In field application, will this evaluation system applied to xinjiang coking coal groupYiWeiEr ditch mining coal mine, 1930 the tunnel heading face extension safety evaluationprocess: first, according to relevant technical standards and procedures to coal, composing thesafety checklist for inspection, after experts identify various performance field index scoremembership; Then, using a fuzzy comprehensive evaluation calculation method to calculateeach index evaluation result, draw system 79.75, namely has divided into that of the securitylevel for mining "good",which well coincide with the actual situation. Based on evaluation results and content of“ordinary”、“poor”and“very poor”of safety check list, improvementmeasues are put forward. This system is scientific,easy and practical, which makes it havegreat importance during the work of safety evaluating.
引文
[1]国家安全生产监督管理局. http://www.chinasafety.gov.cn/newpage/
[2]李润求,施式亮,念其锋罗文柯.基于灰色系统理论的煤矿安全生产形势预测[J].矿业工程研究,2010(3):54~58
[3]陶永芹.我国综掘技术及其发展研究[J].煤矿机械,2005(7):1~2
[4]崔增祁,李树青.岩巷施工技术的回顾与展望[J].建井技术,1996(2):5~6
[5]赛云秀编著.现代矿山井巷施工技术[M].陕西:陕西科学技术出版社,2000
[6] Advisory Committee on Major Hazards,Seeond Report,Health Safety Co mmission,London,1974
[7] Risk Management Programs for Chemical Accidental Release Prevention,EPACo,2000
[8] Frank Harris,Ground Engineering Equipment and Methods,Mc GRAW-HILL BookCompany Limited,NEW YORK 1983
[9]高进东、吴宗之,王广亮.论我国重大危险源辨识标准[J].中国安全科学学报,1999(6):1~3
[10] He Manchao,Wang Hongnaei.Mining Trend of Chinese Coal Resources in the 21 stCentury and the Predicting,System for Environmental Damage due to Mining.Proceedings of the Japan—China Joint Forum on Environmental Geomechanics.KyushUniversiry Press,1994:29~34
[11]沈斐敏编著.安全系统工程理论与应用[M].煤炭工业出版社,2000:144~189
[12]张甫仁,景国勋,顾志凡.论矿山重大危险源辨识、评价及控制[M].中国煤炭,2002
[13]国家安全生产管理局编.安全评价[M].北京:煤炭工业出版社,2002,10
[14] Sehgal,V.K;coalfields.Kumar,A.Thick and steep seam mining in North Eastren[J]. Internat-ional symposium on thick seam mining: problem and issues(ISTS’92),1992.457~469
[15]王金华.我国煤巷机械化掘进机现状及锚杆支护技术[J].煤炭科学技术,2004,32(1):6~10
[16] Aksenov,V.V:Lukashev,G.E. Design of universal equipment set for working steep eams.Ugol.1993(4).5~9.(Russia)
[17]张乃禄,刘灿.安全评价技术[M].西安:西安电子科技大学,2007
[18]王金波,陈宝智等.系统安全工程[M].东北工业学院出版社,1992
[19]吴宗之,高进东.重大危险源辩识与控制[M].冶金工业出版社,2001
[20]何学秋等.安全工程学[M].徐州:中国矿业大学出版社,2000,6
[21]陈勇刚.掘进面瓦斯爆炸危险源安全评价研究及应用[D].西安科技大学,2004
[22] HM inspechorate of mines Health and Safety Executive[J]. Minning Engineering.2000(6)
[23] Health and Safety Commission.Advisory committee on major hazards[J]. London HerMajestys stationery office.1999:16~18
[24]吴宗之,高进东等.危险评价方法及其应用[M].冶金工业出版社,2003(5):96~98
[25]涂兴子、康全玉,翟新献等.厚煤层分层综采技术[M].北京:煤炭工业出版社,2002
[26]张宝明,陈炎光,徐永圻.中国煤矿高产高效技术[M].徐州:中国矿业大学出版社,2001
[27]位爱竹.煤矿企业危害辨识、风险评价及方法的选取[D].中国矿业大学能源与安全工程学院,2005
[28]吴宗之.重大危险源控制技术研究现状及若干问题探讨[J].中国安全科学学报,1994(2):17~22
[29]袁昌明.危险源辨识控制与安全评价.武汉冶金部安全技术训练班培训教材,1997(8)
[30]雷芳.危险化学品安全评价指标体系的研究[D].中国地质大学,2004
[31]高进东,冯长根,吴宗之.危险源辨识方法的研究[J].中国安全科学学报,2001(4),57~60
[32]江兵,白勤虎,何精梅.煤矿危险源分类分级与预警[J].中国安全科学学报,1999(4),70~74
[33]隋鹏程,陈宝智,隋旭.安全原理[M].北京:化学工业出版,2005,4
[34]陈红.中国煤矿重大事故中的不安全行为研究[M].北京:科学出版社,2006,9
[35]周泽平.煤矿安全评价研究及其在掘进生产中的应用[D].西安科技大学,2005
[36] Ming Rao,Qun Wang,Ji Zhou.Integrated Distributed Intelligent Systems in EngineeringDesign[M],London:Gordon and Breach Science Publishers,1996
[37]李桂营.采煤工作面的顶板管理问题探讨[J].矿山安全,2005(3):45~46
[38]刘伟州范云等.煤矿通风综合技术手册[M].中国矿业出版社,2005,921
[39]耿金华.采煤工作面灾变情况下救助措施[J].山东煤炭科技,2005(3):57~58
[40]牛朝旭.综采工作面的粉尘分布及治理对策[J].煤炭科学技术,2006(4):29~30
[41]张兰.煤矿安全事故预测与风险性评价[D].重庆大学,2005
[42]张国枢等.通风安全学[M].徐州:中国矿业大学,2004,4
[43]田水承,李红霞等.从三类危险源理论看煤矿事故的频发[J].中国安全科学学报,2007(1):10~15
[44] Leiming Xing,David Okrent,The use of neural network and a prototype expertsystem inBWR ATWS accidents diagnosis,Reliability Engineering and System Safety,1944(11):219~227
[45]黄大喜.层次分析法在投资项目评价与决策中的应用[J].科学研究.,2007(06):25~28
[46]赵焕臣,许树柏,和金生.层次分析法[M] .科学出版社,1986:5~10
[47]翁翼飞,王家臣.系统安全管理的复杂性研究[J].矿业安全与环保,2008(4):78~80
[48]许树柏.层次分析法原理[M].天津大学出版社,1988
[49]杨永清,许先云.改进的层次分析法用于矿井安全管理的综合评价[J].系统工程理论与实践,1999(06):121~125
[50]谢仁山,王先华.层次次分析法(AHP)在安全评价有关指标赋值的应用[J].工业安全与防尘.1999(1):31~33
[51]佟春生.用加权平均多层次模糊综合评判方法进行安全评价[J].工业尘,1989(2):16~18
[52]程卫民.煤矿安全评价中评价指标安全度值的确定[J].煤炭学报,1997,22(3):276~27
[53]候岳衡,沈德家.指数标度及其几种标度的比较[J].系统工程理论与实践,1995(10):43~46
[54]武保林,谢晓文,王莹.安全的相对性与企业安全性最优权综合评价模型[J].中国安全科学学报,1995(4):14~18
[55]程映雪,向衍荪,周长春.系统安全评价方法分析[J].中国安全科学学报,1995(12):42~47
[2]李润求,施式亮,念其锋罗文柯.基于灰色系统理论的煤矿安全生产形势预测[J].矿业工程研究,2010(3):54~58
[3]陶永芹.我国综掘技术及其发展研究[J].煤矿机械,2005(7):1~2
[4]崔增祁,李树青.岩巷施工技术的回顾与展望[J].建井技术,1996(2):5~6
[5]赛云秀编著.现代矿山井巷施工技术[M].陕西:陕西科学技术出版社,2000
[6] Advisory Committee on Major Hazards,Seeond Report,Health Safety Co mmission,London,1974
[7] Risk Management Programs for Chemical Accidental Release Prevention,EPACo,2000
[8] Frank Harris,Ground Engineering Equipment and Methods,Mc GRAW-HILL BookCompany Limited,NEW YORK 1983
[9]高进东、吴宗之,王广亮.论我国重大危险源辨识标准[J].中国安全科学学报,1999(6):1~3
[10] He Manchao,Wang Hongnaei.Mining Trend of Chinese Coal Resources in the 21 stCentury and the Predicting,System for Environmental Damage due to Mining.Proceedings of the Japan—China Joint Forum on Environmental Geomechanics.KyushUniversiry Press,1994:29~34
[11]沈斐敏编著.安全系统工程理论与应用[M].煤炭工业出版社,2000:144~189
[12]张甫仁,景国勋,顾志凡.论矿山重大危险源辨识、评价及控制[M].中国煤炭,2002
[13]国家安全生产管理局编.安全评价[M].北京:煤炭工业出版社,2002,10
[14] Sehgal,V.K;coalfields.Kumar,A.Thick and steep seam mining in North Eastren[J]. Internat-ional symposium on thick seam mining: problem and issues(ISTS’92),1992.457~469
[15]王金华.我国煤巷机械化掘进机现状及锚杆支护技术[J].煤炭科学技术,2004,32(1):6~10
[16] Aksenov,V.V:Lukashev,G.E. Design of universal equipment set for working steep eams.Ugol.1993(4).5~9.(Russia)
[17]张乃禄,刘灿.安全评价技术[M].西安:西安电子科技大学,2007
[18]王金波,陈宝智等.系统安全工程[M].东北工业学院出版社,1992
[19]吴宗之,高进东.重大危险源辩识与控制[M].冶金工业出版社,2001
[20]何学秋等.安全工程学[M].徐州:中国矿业大学出版社,2000,6
[21]陈勇刚.掘进面瓦斯爆炸危险源安全评价研究及应用[D].西安科技大学,2004
[22] HM inspechorate of mines Health and Safety Executive[J]. Minning Engineering.2000(6)
[23] Health and Safety Commission.Advisory committee on major hazards[J]. London HerMajestys stationery office.1999:16~18
[24]吴宗之,高进东等.危险评价方法及其应用[M].冶金工业出版社,2003(5):96~98
[25]涂兴子、康全玉,翟新献等.厚煤层分层综采技术[M].北京:煤炭工业出版社,2002
[26]张宝明,陈炎光,徐永圻.中国煤矿高产高效技术[M].徐州:中国矿业大学出版社,2001
[27]位爱竹.煤矿企业危害辨识、风险评价及方法的选取[D].中国矿业大学能源与安全工程学院,2005
[28]吴宗之.重大危险源控制技术研究现状及若干问题探讨[J].中国安全科学学报,1994(2):17~22
[29]袁昌明.危险源辨识控制与安全评价.武汉冶金部安全技术训练班培训教材,1997(8)
[30]雷芳.危险化学品安全评价指标体系的研究[D].中国地质大学,2004
[31]高进东,冯长根,吴宗之.危险源辨识方法的研究[J].中国安全科学学报,2001(4),57~60
[32]江兵,白勤虎,何精梅.煤矿危险源分类分级与预警[J].中国安全科学学报,1999(4),70~74
[33]隋鹏程,陈宝智,隋旭.安全原理[M].北京:化学工业出版,2005,4
[34]陈红.中国煤矿重大事故中的不安全行为研究[M].北京:科学出版社,2006,9
[35]周泽平.煤矿安全评价研究及其在掘进生产中的应用[D].西安科技大学,2005
[36] Ming Rao,Qun Wang,Ji Zhou.Integrated Distributed Intelligent Systems in EngineeringDesign[M],London:Gordon and Breach Science Publishers,1996
[37]李桂营.采煤工作面的顶板管理问题探讨[J].矿山安全,2005(3):45~46
[38]刘伟州范云等.煤矿通风综合技术手册[M].中国矿业出版社,2005,921
[39]耿金华.采煤工作面灾变情况下救助措施[J].山东煤炭科技,2005(3):57~58
[40]牛朝旭.综采工作面的粉尘分布及治理对策[J].煤炭科学技术,2006(4):29~30
[41]张兰.煤矿安全事故预测与风险性评价[D].重庆大学,2005
[42]张国枢等.通风安全学[M].徐州:中国矿业大学,2004,4
[43]田水承,李红霞等.从三类危险源理论看煤矿事故的频发[J].中国安全科学学报,2007(1):10~15
[44] Leiming Xing,David Okrent,The use of neural network and a prototype expertsystem inBWR ATWS accidents diagnosis,Reliability Engineering and System Safety,1944(11):219~227
[45]黄大喜.层次分析法在投资项目评价与决策中的应用[J].科学研究.,2007(06):25~28
[46]赵焕臣,许树柏,和金生.层次分析法[M] .科学出版社,1986:5~10
[47]翁翼飞,王家臣.系统安全管理的复杂性研究[J].矿业安全与环保,2008(4):78~80
[48]许树柏.层次分析法原理[M].天津大学出版社,1988
[49]杨永清,许先云.改进的层次分析法用于矿井安全管理的综合评价[J].系统工程理论与实践,1999(06):121~125
[50]谢仁山,王先华.层次次分析法(AHP)在安全评价有关指标赋值的应用[J].工业安全与防尘.1999(1):31~33
[51]佟春生.用加权平均多层次模糊综合评判方法进行安全评价[J].工业尘,1989(2):16~18
[52]程卫民.煤矿安全评价中评价指标安全度值的确定[J].煤炭学报,1997,22(3):276~27
[53]候岳衡,沈德家.指数标度及其几种标度的比较[J].系统工程理论与实践,1995(10):43~46
[54]武保林,谢晓文,王莹.安全的相对性与企业安全性最优权综合评价模型[J].中国安全科学学报,1995(4):14~18
[55]程映雪,向衍荪,周长春.系统安全评价方法分析[J].中国安全科学学报,1995(12):42~47