中国安全生产科学技术
中國安全生產科學技術
중국안전생산과학기술
JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY
2015年
1期
133-137
,共5页
胡玉琴%王殿生%赵洪磊%刘金玉
鬍玉琴%王殿生%趙洪磊%劉金玉
호옥금%왕전생%조홍뢰%류금옥
静电事故%鱼骨图%层次分析法( AHP)%石油
靜電事故%魚骨圖%層次分析法( AHP)%石油
정전사고%어골도%층차분석법( AHP)%석유
electrostatic accidents%fishbone diagram%AHP%oil
针对石油静电事故影响因素的复杂性、多层次性和不确定性的特点,采用鱼骨图分析法,找出了引发石油静电事故的影响因素,确定出6个主因素、25个子因素的石油静电事故评价指标体系。应用层次分析法确定了各个影响因素的重要程度,分析出导致石油静电事故的重要因素。结果表明,6个主因素中,隶属于生产操作工艺和安全生产管理的操作错误、人体静电和接地故障3个主因素权重之和高达0.792,是引发石油静电事故的主导因素;子因素中预防的重点应放在喷溅式装卸油、化纤品与人体摩擦和接地线损坏方面。鱼骨图分析法和层次分析法的联合应用,合理地解决了石油静电事故影响因素分析难题,具有一定的推广应用价值。
針對石油靜電事故影響因素的複雜性、多層次性和不確定性的特點,採用魚骨圖分析法,找齣瞭引髮石油靜電事故的影響因素,確定齣6箇主因素、25箇子因素的石油靜電事故評價指標體繫。應用層次分析法確定瞭各箇影響因素的重要程度,分析齣導緻石油靜電事故的重要因素。結果錶明,6箇主因素中,隸屬于生產操作工藝和安全生產管理的操作錯誤、人體靜電和接地故障3箇主因素權重之和高達0.792,是引髮石油靜電事故的主導因素;子因素中預防的重點應放在噴濺式裝卸油、化纖品與人體摩抆和接地線損壞方麵。魚骨圖分析法和層次分析法的聯閤應用,閤理地解決瞭石油靜電事故影響因素分析難題,具有一定的推廣應用價值。
침대석유정전사고영향인소적복잡성、다층차성화불학정성적특점,채용어골도분석법,조출료인발석유정전사고적영향인소,학정출6개주인소、25개자인소적석유정전사고평개지표체계。응용층차분석법학정료각개영향인소적중요정도,분석출도치석유정전사고적중요인소。결과표명,6개주인소중,대속우생산조작공예화안전생산관리적조작착오、인체정전화접지고장3개주인소권중지화고체0.792,시인발석유정전사고적주도인소;자인소중예방적중점응방재분천식장사유、화섬품여인체마찰화접지선손배방면。어골도분석법화층차분석법적연합응용,합리지해결료석유정전사고영향인소분석난제,구유일정적추엄응용개치。
According to the characteristics of complexity, diversity and uncertainty about the influence factors of e-lectrostatic accidents in oil industry, the influencing factors leading to electrostatic accident in oil industry were i-dentified by adopting fishbone diagram method, and an assessment index system of oil electrostatic accidents was determined, which included 6 main factors and 25 sub factors. The AHP method was used to obtain the significance level of each factor, and the key factors leading to the accident were analyzed. The results showed that in the 6 main factors, the sum of weights of 3 main factors being attached to production operation process and work safety management, including the operation mistake, human static electricity and ground fault, is up to 0. 792, and they are the dominant factors leading to oil electrostatic accidents. The prevention emphasis of sub factors should be placed on splashing oil loading and unloading, friction between chemical fiber and human body, and grounding line damage. The combined application of fishbone diagram and AHP solves the difficult problem of influence factor analysis on e-lectrostatic accidents in oil industry reasonably, and it has a certain value of popularization and application.