|本期目录/Table of Contents|

[1]郑霞忠,陈云,陈述.溧阳电站整流锥支撑系统施工安全影响因素识别研究[J].中国安全生产科学技术,2016,12(3):137-142.[doi:10.11731/j.issn.1673-193x.2016.03.025]
 ZHENG Xiazhong,CHEN Yun,CHEN Shu.Recognition of influence factors on construction safety for support system of air flow distributing wimble in Liyang power station[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2016,12(3):137-142.[doi:10.11731/j.issn.1673-193x.2016.03.025]
点击复制

溧阳电站整流锥支撑系统施工安全影响因素识别研究
分享到:

《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:
12
期数:
2016年3期
页码:
137-142
栏目:
现代职业安全卫生管理与技术
出版日期:
2016-03-30

文章信息/Info

Title:
Recognition of influence factors on construction safety for support system of air flow distributing wimble in Liyang power station
文章编号:
1673-193X(2016)-03-0137-06
作者:
郑霞忠12陈云1陈述12
(1. 三峡大学 水利与环境学院,湖北 宜昌 443002;2.水电工程施工与管理湖北省重点实验室,湖北 宜昌 443002)
Author(s):
ZHENG Xiazhong12 CHEN Yun1 CHEN Shu12
(1. College of Hydraulic & Environmental Engineering, China Three Gorges University, Yichang Hubei 443002, China; 2. Hubei Key Laboratory of Construction and Management in Hydropower Engineering, Yichang Hubei 443002, China)
关键词:
施工安全影响因素识别二元语义DEMATEL支撑系统整流锥
Keywords:
construction safety recognition of influence factors two-tuple linguistic DEMATEL support system air flow distributing wimble
分类号:
X92
DOI:
10.11731/j.issn.1673-193x.2016.03.025
文献标志码:
A
摘要:
溧阳电站整流锥施工难度大,支撑系统安全性的高低直接关系整流锥浇筑安全。为实施安全重点监控,基于人员操作、工作环境、设备设施、现场管理等四个方面,系统分析整流锥支撑系统施工安全影响因素;综合运用二元语义基本理论,集结专家语言评价信息,结合DEMATEL(传统决策试验和评价实验法)核心思路,提出一种考虑因素间关联性的影响因素识别方法;辨析溧阳电站整流锥支撑系统施工安全影响因素重要程度与因果关系。结果表明:现场监督是影响其施工安全最重要的外部因素,基本素质是最易影响其他因素的原因因素,验收管理是最易受其他因素影响的结果因素。
Abstract:
The construction of air flow distributing wimble in Liyang power station is difficult, and the safety of support system directly concerns the pouring safety of air flow distributing wimble. In order to implement the safety key monitoring, the influence factors on construction safety for support system of air flow distributing wimble were systematically analyzed from four aspects including personnel operation, working environment, facilities and field management. Through combining the core idea of DEMATEL, a recognition method of influence factors considering the correlation among factors was proposed by applying the basic theory of two-tuple linguistic and integrating the linguistic assessment information of experts. The important degree and causal relationship of influence factors on construction safety for support system of air flow distributing wimble in Liyang power station were analyzed, the results showed that field supervision is the most important external factor influencing construction safety, the basic quality is the casual factor which is the most easily to influence other factors, and acceptance management is the outcome factor which is the most easily to be influenced by other factors.

参考文献/References:

[1]刘俊,吴军强,王涛. FL-24风洞整流锥结构有限元分析及改进[J]. 机械设计与研究, 2013, 29(2): 129-132. LIU Jun, WU Junqiang, WANG Tao. Finite element analysis and improvement for the structure of rectifier cone in FL-24 wind tunnel[J]. Machine Design & Research, 2013, 29(2): 129-132.
[2]Hadipriono Fabian C. Approximate reasoning for falsework safety assessment[J]. Structural Safety, 1987, 4(2): 131-140.
[3]刘菲菲. 三峡工程升船机施工安全管理难点与控制措施[J]. 水利水电技术, 2013, 44(4): 52-57. LIU Feifei. Difficulties from safety management of construction of ship-lift for Three Gorges Project and relevant control measures[J]. Water Resources and Hydropower Engineering, 2013, 44(4): 52-57.
[4]周继忠,蔡雪峰. 扣件式钢管脚手架施工安全风险识别与应对[J]. 施工技术, 2008, 37(2): 48-51. ZHOU Jizhong, CAI Xuefeng. Identification and countermeasures of construction security risk on fastener-style steel pipe scaffold[J]. Construction Technology, 2008, 37(2): 48-51.
[5]陆征然,陈志华,王小盾,等. 扣件式钢管满堂支撑体系稳定性的有限元分析及试验研究[J]. 土木工程学报, 2012, 45(01): 49-60. LU Zhengran, CHEN Zhihua, WANG Xiaodun, et al. Experimental and theoretical study of the bearing capacity of fastener steel tube full-hall formwork support system[J]. China Civil Engineering Journal, 2012, 45(01): 49-60.
[6]LIU LaiJun, CHEN Yongrui, Sun WeiGang, et al. Comprehensive safety state assessment method of cuplok scaffolding[J]. Journal of Chang'an University (Natural Science Edition), 2015, 35(3): 74-82.
[7]胡振中,张建平,张旭磊. 基于4D施工安全信息模型的建筑施工支撑体系安全分析方法[J]. 工程力学, 2010, 12(12): 192-200. HU Zhenzhong, ZHANG Jianping, ZHANG Xulei. 4D construction safety information model-based safety analysis approach for scaffold system during construction[J]. Engineering Mechanics, 2010, 12(12): 192-200.
[8]张青春. 基于ZigBee结构支撑安全监测无线传感器的设计[J]. 计算机测量与控制, 2012, 20(11): 3136-3138. ZHANG Qingchun. Design of structural support safety monitoring wireless sensor based on ZigBee[J]. Computer Measurement & Control, 2012, 20(11): 3136-3138.
[9]郭凯,王海,崔爱珍,等. 楼板浇筑过程中脚手架支撑系统施工监测及数值分析[J]. 施工技术, 2015, 44(7): 22-24, 43. GUO Kai, WANG Hai, CUI Aizhen, et al. Construction monitoring and numerical analysis for the scaffold supporting system in slab concrete casting process[J]. Construction Technology, 2015, 44(7): 22-24, 43.
[10]刘新清,何炜. 三峡升船机横梁支撑系统安全监测及分析[J]. 中国工程科学, 2013(9): 108-112. LIU Xinqing, HE Wei. Safety monitoring and analysis on crossbeam supporting system of Three Gorges Project ship lift[J]. Engineering Science, 2013(9): 108-112.
[11]陈大伟,赵晨阳,田翰之,等. 建筑安全生产事故统计指标体系创新及应用研究[J]. 中国安全科学学报, 2013, 23(11): 72-78. CHEN Dawei, ZHAO Chenyang, TIAN Hanzhi, et al. Study on an innovation in construction accidents statistical indexes system and its application[J]. China Safety Science Journal, 2013, 23(11): 72-78.
[12]王开凤,张谢东,王小璜,等. 高速公路施工安全状况的模糊综合评判方法的研究[J]. 武汉理工大学学报(交通科学与工程版), 2008, 32(6): 1110-1112. WANG Kaifeng, ZHANG Xiedong, WANG Xiaohuang, et al. Research on fuzzy synthetical judgment of construction safety status in freeway[J]. Journal of Wuhan University of Technology(Transportation Science & Engineering), 2008, 32(6): 1110-1112.
[13]刘卫东,王立艳,张岩松,等. 我国煤矿劳动防护用品使用现状调查分析及对策研究[J]. 中国安全生产科学技术, 2009, 5(1): 121-124. LIU Weidong, WANG Liyan, ZHANG Yansong, et al. Investigation analysis and counter measures of personal protective equipment for coal mine in China[J]. Journal of Safety Science and Technology, 2009, 5(1): 121-124.
[14]陈述,余迪,郑霞忠. 水电工程施工作业安全管理能力集对分析[J]. 中国安全生产科学技术, 2014, 10(12): 56-61. CHEN Shu, YU Di, ZHENG Xiazhong. Set pair analysis on safety management ability in construction operation of hydropower project[J]. Journal of Safety Science and Technology, 2014, 10(12): 56-61.
[15]孟遂民,郭昊,李维维 等. 应用模糊层次分析法的带电跨越施工安全评价[J]. 辽宁工程技术大学学报(自然科学版), 2014, 33(3): 358-363. MENG Suimin, GUO Hao, LI Weiwei, et al. Safety evaluation for construction over live wires using fuzzy analytic hierarchy process[J]. Journal of Liaoning Technical University(Natural Science), 2014, 33(3): 358-363.
[16]王胜江,冀永进. 企业安全生产责任制的建立与落实研究[J]. 中国安全科学学报, 2009, 19(4): 44-49. WANG Shengjiang, JI Yongjin. Study on the establishment and implementation of enterprise[J]. Safety Production Responsibility System[J]. China Safety Science Journal, 2009, 19(4): 44-49.
[17]崔强,武春友,匡海波. BP-DEMATEL在空港竞争力影响因素识别中的应用[J]. 系统工程理论与实践, 2013, 33(6): 1471-1478. CUI Qiang, WU Chunyou, KUANG Haibo. Influencing factors research of airports competitiveness based BP-DEMATEL model[J]. Systems Engineering Theory & Practice, 2013, 33(6): 1471-1478.
[18]刘培德,关忠良. 一种基于二元语义的混合型多属性决策方法[J]. 控制与决策, 2009, 24(7): 1074-1077, 1082. LIU Peide, GUAN Zhongliang. Hybrid multiple attribute decision making method based on 2-tuple[J]. Control and Decision, 2009, 24(7): 1074-1077, 1082.
[19]Herrera F, Martinez L. A model based on linguistic 2-tuples for dealing with multigranular hierarchical linguistic contexts in multi-expert decision-making[J]. IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics, 2001, 31(2): 227-234.
[20]Wang Jin,Hsien, Hao Jongyun. A new version of 2-tuple fuzzy linguistic representation model for computing with words[J]. IEEE Transactions on Fuzzy Systems, 2006, 14(3): 435-445.
[21]Goodman R. Introduction to stochastic models[M]. California: Benjamin/Cummings Publishing Company, 1988: 146-152.

相似文献/References:

[1]宋四新 ,宋先勇.大型排架施工安全监控机制研究[J].中国安全生产科学技术,2012,8(6):101.
 SONG Si xin,SONG Xian yong.Research on safety monitoring mechanism of largescale bent frame construction[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2012,8(3):101.
[2]鲍学英,王起才,宫文昌.基于模糊层次分析法的地铁工程施工安全评价[J].中国安全生产科学技术,2013,9(1):136.
 BAO Xue ying,WANG Qi cai.Study on safety assessments of metro constructions using fuzzy analytic hierarchy process[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2013,9(3):136.
[3]黄丽霞,张东曾.悬索桥钢箱梁的吊装施工安全技术研究[J].中国安全生产科学技术,2010,6(3):228.
 HUANG Li-xia,ZHANG Dong-zeng.Study on the safe hoisting techniques for steel box girder of suspension bridge[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2010,6(3):228.
[4]袁春燕,杨剑耕,卢俊龙.模糊测度理论在施工现场安全目标决策中的应用[J].中国安全生产科学技术,2014,10(3):101.[doi:10.11731/j.issn.1673-193x.2014.03.017]
 YUAN Chun yan,YANG Jian geng,LU Jun long.Application of fuzzy measure theory in safety objective decision of construction site[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2014,10(3):101.[doi:10.11731/j.issn.1673-193x.2014.03.017]
[5]杨高升,李松晨,姜双双.建筑施工企业安全激励机制优化研究[J].中国安全生产科学技术,2014,10(6):133.[doi:10.11731/j.issn.1673-193x.2014.06.021]
 YANG Gao sheng,LI Song chen,JIANG Shuang shuang.Research on optimization of safety incentive mechanism in construction enterprises[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2014,10(3):133.[doi:10.11731/j.issn.1673-193x.2014.06.021]
[6]郭红领,张伟胜,刘文平.集成设计-施工安全(DFCS)的方法探索[J].中国安全生产科学技术,2015,11(2):5.[doi:10.11731/j.issn.1673-193x.2015.02.001]
 GUO Hong-ling,ZHANG Wei-sheng,LIU Wen-ping.Exploration on integration method of design for construction safety(DFCS)[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2015,11(3):5.[doi:10.11731/j.issn.1673-193x.2015.02.001]
[7]韩豫,张泾杰,梅强,等.建筑工人安全行为习惯的塑造策略与方法[J].中国安全生产科学技术,2015,11(9):177.[doi:10.11731/j.issn.1673-193x.2015.09.028]
 HAN Yu,ZHANG Jing-jie,MEI Qiang,et al.Shaping strategies and methods of safety behavior habits for construction workers[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2015,11(3):177.[doi:10.11731/j.issn.1673-193x.2015.09.028]
[8]韩豫,梅强,周丹,等.群体封闭性视角下的建筑工人不安全行为传播特[J].中国安全生产科学技术,2016,12(3):187.[doi:10.11731/j.issn.1673-193x.2016.03.034]
 HAN Yu,MEI Qiang,ZHOU Dan,et al.Propagation characteristics of unsafe behaviors for construction workers from the perspective of group closeness[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2016,12(3):187.[doi:10.11731/j.issn.1673-193x.2016.03.034]
[9]韩豫,张泾杰,孙昊,等.基于图像识别的建筑工人智能安全检查系统设计与实现[J].中国安全生产科学技术,2016,12(10):142.[doi:10.11731/j.issn.1673-193x.2016.10.024]
 HAN Yu,ZHANG Jingjie,SUN Hao,et al.Design and implementation of intelligent safety inspection system for construction workers based on image recognition[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2016,12(3):142.[doi:10.11731/j.issn.1673-193x.2016.10.024]
[10]冯志达,韩豫,张泾杰,等.建筑业从业人员的危险认知差异特性及成因——基于管理人员与作业人员的比较[J].中国安全生产科学技术,2017,13(7):186.[doi:10.11731/j.issn.1673-193x.2017.07.030]
 FENG Zhida,HAN Yu,ZHANG Jingjie,et al.Characteristics and causes of difference in hazard cognition of construction employees—based on the comparison between managers and workers[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2017,13(3):186.[doi:10.11731/j.issn.1673-193x.2017.07.030]

备注/Memo

备注/Memo:
国家自然科学基金项目(51379110);三峡大学研究生科创基金项目(2015CX005)
更新日期/Last Update: 2016-04-15