[1]陈国华,陶侠,黄孔星,等.Natech事件油气管道脆弱性评估现状与思考[J].油气储运,2022,41(08):892-899.[doi:10.6047/j.issn.1000-8241.2022.08.003]
 CHEN Guohua,TAO Xia,HUANG Kongxing,et al.Status and thinking of vulnerability assessment of oil and gas pipelines in Natech events[J].Oil & Gas Storage and Transportation,2022,41(08):892-899.[doi:10.6047/j.issn.1000-8241.2022.08.003]
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Natech事件油气管道脆弱性评估现状与思考

参考文献/References:

[1] WANG B, LI D L, WU C. Characteristics of hazardous chemical accidents during hot season in China from 1989 to 2019: a statistical investigation[J]. Safety Science, 2020, 129:104788.
[2] CHEN C, LI C J, RENIERS G, YANG F Q. Safety and security of oil and gas pipeline transportation: a systematic analysis of research trends and future needs using WoS[J]. Journal of Cleaner Production, 2021, 279: 123583.
[3] LI S J, DUAN Q Q, ZHANG H, WANG J. Failure analysis of the floating pipeline with defect under flooding load[J]. Engineering Failure Analysis, 2017, 77: 65-75.
[4] LINDELL M K, PERRY R W. Hazardous materials releases in the Northridge earthquake: implications for seismic risk assessment[J]. Risk Analysis, 1997, 17(2): 147-156.
[5] LANZANO G, SALZANO E, DE MAGISTRIS F S, FABBROCINO G. Seismic vulnerability of natural gas pipelines[J]. Reliability Engineering & System Safety, 2013, 117: 73-80.
[6] CHENNA R, TERALA S, SINGH A P, MOHAN K, RASTOGI B K, RAMANCHARLA P K. Vulnerability assessment of buried pipelines: a case study[J]. Frontier in Geotechnical Engineering, 2014, 3: 24-33.
[7] GRIMAZ S, MAIOLO A. The impact of the 6th April 2009 L'Aquila earthquake (Italy) on the industrial facilities and life lines. Considerations in terms of NaTech risk[J]. Chemical Engineering Transactions, 2010, 19: 279-284.
[8] 赵秀雯,柴建设.城市埋地天然气管道系统脆弱性评估指标研究[J].中国安全生产科学技术,2011,7(7):92-96. ZHAO X W, CHAI J S. Study on indicators of vulnerability assessment for city buried gas pipeline system[J]. Journal of Safety Science and Technology, 2011, 7(7): 92-96.
[9] 李凤,易俊,王文和,左代荣.基于SVM的CO2驱油藏输油管道脆弱性评价研究[J].中国安全生产科学技术,2015,11(8):157-163. LI F, YI J, WANG W H, ZUO D R. Study on vulnerability evaluation of oil pipeline for CO2 flooding reservoir based on SVM[J]. Journal of Safety Science and Technology, 2015, 11(8):157-163.
[10] FERRIS G, NEWTON S, PORTER M. Vulnerability of buried pipelines to landslides[C]. Calgary: 2016 11th International Pipeline Conference, 2016:1-5.
[11] YI IT A, LAV M A, GEDIKLI A. Vulnerability of natural gas pipelines under earthquake effects[J]. Journal of Pipeline Systems Engineering and Practice, 2018, 9(1): 1-14.
[12] 王武昌,章艺,李玉星,刘承松,梁蓝云.基于风险理论的天然气管网脆弱性分析方法[J].油气储运,2022,41(1):42-47. WANG W C, ZHANG Y, LI Y X, LIU C S, LIANG L Y. Vulnerability analysis of natural gas pipeline networks based on risk theory[J]. Oil & Gas Storage and Transportation, 2022, 41(1): 42-47.
[13] ROSSI L, MORENO V C, LANDUCCI G. Vulnerability assessment of process pipelines affected by flood events[J]. Reliability Engineering & System Safety, 2022, 219: 108261.
[14] OLMER M, REZAC B J M I. Methodical principles of maps for protection of groundwater in Bohemia and Moravia scale 1/200.000[J]. Mem IAH, 1974, 10(1): 105-107.
[15] ABU-BAKR H A E A. Groundwater vulnerability assessment in different types of aquifers[J]. Agricultural Water Management, 2020, 240: 106275.
[16] HE L, SHEN J, ZHANG Y. Ecological vulnerability assessment for ecological conservation and environmental management[J]. Journal of Environmental Management, 2018, 206: 1115-1125.
[17] YANG X, LIU S, JIA C, LIU Y, YU C C. Vulnerability assessment and management planning for the ecological environment in urban wetlands[J]. Journal of Environmental Management, 2021, 298: 113540.
[18] TURNER B L, KASPERSON R E, MATSON P A, MCCARTHY J J, CORELL R W, CHRISTENSEN L, et al. A framework for vulnerability analysis in sustainability science[J]. Proceedings of the National Academy of Sciences of the United States of America, 2003, 100(14): 8074-8079.
[19] 石勇,许世远,石纯,孙阿丽,赵庆良.自然灾害脆弱性研究进展[J].自然灾害学报,2011,20(2):131-137. SHI Y, XU S Y, SHI C, SUN A L, ZHAO Q L. Progress in research on vulnerability of natural disasters[J]. Journal of Natural Disasters, 2011, 20(2): 131-137.
[20] CHEN G H, HUANG K X, ZOU M T, YANG Y F, DONG H Y. A methodology for quantitative vulnerability assessment of coupled multi-hazard in Chemical Industrial Park[J]. Journal of Loss Prevention in the Process Industries, 2019, 58: 30-41.
[21] O'KEEFE P, WESTGATE K, WISNER B. Taking the naturalness out of natural disasters[J]. Nature, 1976, 260(5552):566-567.
[22] CUTTER S L, FINCH C. Temporal and spatial changes in social vulnerability to natural hazards[J]. Proceedings of the National Academy of Sciences of the United States of America, 2008, 105(7): 2301-2306.
[23] PROAG V. The concept of vulnerability and resilience[J]. Procedia Economics and Finance, 2014, 18: 369-376.
[24] FOLKE C, CARPENTER S, ELMQVIST T, GUNDERSON L, HOLLING C S, WALKER B. Resilience and sustainable development: building adaptive capacity in a world of transformations[J]. AMBIO, 2002, 31(5): 437-440.
[25] GALLOPÍN G C. Linkages between vulnerability, resilience, and adaptive capacity[J]. Global Environmental Change, 2006, 16(3): 293-303.
[26] LEI Y D, WANG J, YUE Y J, ZHOU H J, YIN W X. Rethinking the relationships of vulnerability, resilience, and adaptation from a disaster risk perspective[J]. Natural Hazards, 2014, 70(1): 609-627.
[27] FRESHWATER D. Vulnerability and resilience: two dimensions of rurality[J]. Sociologia Ruralis, 2015, 55(4):497-515.
[28] 陈国华.风险工程学[M].北京:国防工业出版社,2007:1-16. CHEN G H. Risk engineering[M]. Beijing: National Defense Industry Press, 2007: 1-16.
[29] AVEN T. A unified framework for risk and vulnerability analysis covering both safety and security[J]. Reliability Engineering & System Safety, 2007, 92(6): 745-754.
[30] 贾增科,邱菀华,郭章林.基于脆弱性的突发事件风险分析[J].兵工学报,2009,30(增刊1):145-149. JIA Z K, QIU W H, GUO Z L. Vulnerability-based risk analysis on emergency events[J]. Acta Armamentarii, 2009, 30(S1): 145-149.
[31] 黄亮亮,姚安林,鲜涛,祁云清,魏沁汝.考虑脆弱性的油气管道风险评估方法研究[J].中国安全科学学报,2014,24(7):93-99. HUANG L L, YAO A L, XIAN T, QI Y Q, WEI Q R. Research on risk assessment method of oil & gas pipeline with consideration of vulnerability[J]. China Safety Science Journal, 2014, 24(7): 93-99.
[32] 黄崇福.自然灾害风险评价:理论与实践[M].北京:科学出版社,2005:13-28. HUANG C F. Risk assessment of natural disaster: theory and practice[M]. Beijing: Science Press, 2005: 13-28.
[33] 谭朝阳.化工园区脆弱性综合评估方法研究[D].天津:南开大学,2012. TAN Z Y. Study of comprehensive assessment methods for chemical industry park vulnerability[D]. Tianjin: Nankai University, 2012.
[34] 孙阿丽,石勇,石纯,许世远,王军.沿海区域自然灾害脆弱性特征及影响因素分析[J].中国人口·资源与环境,2009,19(5):148-153. SUN A L, SHI Y, SHI C, XU S Y, WANG J. Vulnerability characteristics and influence factors of natural disasters in the coastland[J]. China Population, Resources and Environment, 2009, 19(5): 148-153.
[35] JENA R, PRADHAN B, BEYDOUN G. Earthquake vulnerability assessment in Northern Sumatra province by using a multi-criteria decision-making model[J]. International Journal of Disaster Risk Reduction, 2020, 46: 101518.
[36] BUENO-PARDO J, NOBRE D, MONTEIRO J N, SOUSA P M, COSTA E F S, BAPTISTA V, et al. Climate change vulnerability assessment of the main marine commercial fish and invertebrates of Portugal[J]. Scientific Reports, 2021, 11(1): 2958.
[37] SINGHAL A, JHA S K. Can the approach of vulnerability assessment facilitate identification of suitable adaptation models for risk reduction?[J]. International Journal of Disaster Risk Reduction, 2021, 63: 102469.
[38] AHMED N, HOWLADER N. HOQUE M A A,PRADHAN B. Coastal erosion vulnerability assessment along the eastern coast of Bangladesh using geospatial techniques[J]. Ocean & Coastal Management, 2021, 199: 105408.
[39] VOUTCHKOVA D D, SCHULLEHNER J, RASMUSSEN P, HANSEN B. A high-resolution nitrate vulnerability assessment of sandy aquifers (DRASTIC-N)[J]. Journal of Environmental Management, 2021, 277: 111330.
[40] 史培军.三论灾害研究的理论与实践[J].自然灾害学报,2002, 11(3):1-9. SHI P J. Theory on disaster science and disaster dynamics[J]. Journal of Natural Disasters, 2002, 11(3): 1-9.
[41] LUERS A L, LOBELL D B, SKLAR L S, ADDAMS C L, MATSON P A. A method for quantifying vulnerability, applied to the agricultural system of the Yaqui Valley, Mexico[J]. Global Environmental Change, 2003, 13(4): 255-267.
[42] FORD J D, PEARCE T, MCDOWELL G, BERRANG-FORD L, SAYLES J S, BELFER E. Vulnerability and its discontents:the past, present, and future of climate change vulnerability research[J]. Climatic Change, 2018, 151(2): 189-203.
[43] 宋守信,许葭,陈明利,翟怀远.脆弱性基本原理与控制方法[J].安全,2020,41(4):1-6,97. SONG S X, XU J, CHEN M L, ZHAI H Y. Basic principle and control method of vulnerability in safety risk[J]. Safety, 2020, 41(4): 1-6, 97.
[44] 白路遥,施宁,伞博泓,李亮亮,马云宾,时建辰,等.基于卫星遥感的管道地质灾害识别与监测技术现状[J].油气储运, 2019,38(4):368-372,378. BAI L Y, SHI N, SAN B H, LI L L, MA Y B, SHI J C, et al. Current situation of pipeline geological disaster identification and monitoring technology based on satellite remote sensing[J]. Oil & Gas Storage and Transportation, 2019, 38(4):368-372, 378.
[45] ADACHI T, ELLINGWOOD B R. Serviceability assessment of a municipal water system under spatially correlated seismic intensities[J]. Computer-Aided Civil and Infrastructure Engineering, 2009, 24(4): 237-248.
[46] OMIDVAR B, KIVI H K. Multi-hazard failure probability analysis of gas pipelines for earthquake shaking, ground failure and fire following earthquake[J]. Natural Hazards, 2016, 82(1):703-720.
[47] ADACHI T. Impact of cascading failures on performance assessment of civil infrastructure systems[D]. Atlanta: Georgia Institute of Technology, 2007.

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备注/Memo

陈国华,男,1967年生,教授,博士生导师,1996年博士毕业于南京工业大学化工过程机械专业,现主要从事过程系统安全与风险防控技术方向的研究工作。地址:广东省广州市天河区五山路381号华南理工大学29号楼,510640。电话:020-22236321。Email:mmghchen@scut.edu.cn
基金项目:广东省重点领域研发计划项目“油气储运重大基础设施灾害防御关键技术及装备研发与示范”,2019B111102001;2020年度珠海市科技计划项目“埋地PE燃气管道风险评估方法研究及应用”,ZH22036205200013PWC。
(收稿日期:2021-10-26;修回日期:2022-06-01;编辑:刘朝阳)

更新日期/Last Update: 2022-08-25