RISK EVALUATION OF ACCIDENTS FOR SUPER HIGH-RISE BUILDINGS UNDER CONSTRUCTION Ⅰ: METHODS

FANG Dongping; MA Ling; GUO Hongling; YANG Fabing; ZHANG Jinxun

doi:10.13204/j.gyjzG20031011

Volume 51 Issue 11

Mar. 2022

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FANG Dongping, MA Ling, GUO Hongling, YANG Fabing, ZHANG Jinxun. RISK EVALUATION OF ACCIDENTS FOR SUPER HIGH-RISE BUILDINGS UNDER CONSTRUCTION Ⅰ: METHODS[J]. INDUSTRIAL CONSTRUCTION, 2021, 51(11): 200-204. doi: 10.13204/j.gyjzG20031011

Citation:

FANG Dongping, MA Ling, GUO Hongling, YANG Fabing, ZHANG Jinxun. RISK EVALUATION OF ACCIDENTS FOR SUPER HIGH-RISE BUILDINGS UNDER CONSTRUCTION Ⅰ: METHODS[J]. INDUSTRIAL CONSTRUCTION, 2021, 51(11): 200-204. doi: 10.13204/j.gyjzG20031011

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RISK EVALUATION OF ACCIDENTS FOR SUPER HIGH-RISE BUILDINGS UNDER CONSTRUCTION Ⅰ: METHODS

doi: 10.13204/j.gyjzG20031011

1. Department of Construction Management, Tsinghua University,Beijing 100084, China;
2. The Third Construction Engineering Co., Ltd., of China Construction Second Engineering Bureau, Beijing 100070, China;
3. Beijing Urban Construction Group Co., Ltd., Beijing 100088, China

Received Date: 2020-03-10
Available Online: 2022-03-29

Abstract

Abstract

Super high-rise buildings are characterized with high height, complex structure, and tough construction safety management. Aiming at the safety issue, a reliability-based method to evaluate accident risks of super high-rise buildings under construction was proposed. Through investigation of literature and interview with experts, a index system of risk loads and risk resistance construction accidents for super high-rise buildings was constructed and the measurement metrics were determined. Then an approach to adjusting the probability of risk loads by risk resistance was presented, and the quantitative risk evaluation method was built as well by combining risk consequence assessment. The proposed method could effectively reduce the risks of super high-rise buildings under construction and thus improve the levels of safety management for super high-rise building under construction.
- super high-rise building,
- accident risk under construction,
- risk load,
- risk resistance,
- risk evaluation method

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References(21)

References

[1]	世界高层建筑与都市人居学会.2018全球高层建筑[EB/OL].2019-01-02. http://www.sohu.com/a/286350279_200550.
[2]	SANTOSO D S,OGUNLANA S O,MINATO T.Assessment of Risks in High Rise Building Construction in Jakarta[J].Engineering,Construction and Architectural Management,2003,10(1):43-55.
[3]	NURZAWANI M S,AFZAN A Z,SITI A M.Preliminary Study on the Identification of Safety Risks Factors in the High Rise Building Construction[J].Journal Teknologi,2016,78(5-3):1-6.
[4]	NGUYEN L D,TRAN D.An Approach to the Assessment of Fall Risk for Building Construction[C]//Construction Research Congress.2016:1803-1812.
[5]	汪涛,廖彬超,马昕,等.基于贝叶斯网络的施工安全风险概率评估方法[J].土木工程学报,2010,43(增刊2):384-391.
[6]	卞肖峰.基于FTA和AHP方法的在某超高层建筑施工坠落事故的应用研究[D].大连:大连理工大学,2013.
[7]	熊小艳.高层建筑软土深基坑施工风险管理研究[D].武汉:湖北工业大学,2017.
[8]	项天,郭红领,杨发兵,等.基于故障树和模糊理论的超高层建筑施工平台事故成因分析[J].工程管理学报,2018,32(5):7-11.
[9]	李胜兵.超高层建筑项目施工风险管理研究[D].北京:中国科学院大学,2015.
[10]	高煜航.超高层建筑幕墙工程施工风险管理研究[D].北京:北京交通大学,2018.
[11]	冯超.超高层建筑工程施工安全风险评价[D].长沙:中南大学,2013.
[12]	叶列平.混凝土结构(上册)[M].北京:清华大学出版社,2002.
[13]	彭鹏,郭红领,方东平.超高层建筑施工风险源识别与应对措施研究[J].施工技术,2018,47(22):16-23.
[14]	孙煜.国际工程承包中的职业安全与健康风险分析[D].北京:清华大学,2009.
[15]	马昕.基于贝叶斯网络的建筑安全风险评估方法[D].北京:清华大学,2010.
[16]	HALLOWELL M R,GAMBATESE J A.A Formal Model of Construction Safety Risk Management[C]//Construction and Building Research Conference (COBRA).2007:6-7.
[17]	HALLOWELL M R,GAMBATESE J A.Construction Safety Risk Mitigation[J].Journal of Construction Engineering and Management,2009,135(12):1316-1323.
[18]	谢李宁.塔吊倒塌事故风险评估与对策[D].西安:西安科技大学,2015.
[19]	危宁.一种施工升降机的模糊风险评价方法[J].科技情报开发与经济,2012,22(11):145-146.
[20]	付蔓,廖彬超.基于博弈论改进集对分析的超高层项目施工风险评价[J].项目管理技术,2019,17(3):53-58.
[21]	邱伟伦,李小冬.深基坑施工过程中支护体系的风险荷载和风险抗力识别研究[J].工程管理学报,2018,32(6):98-102.

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