基于卫星遥感的管道地质灾害识别与监测技术现状
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摘要
随着油气管网规模逐渐扩大,对长输油气管道地质灾害进行全面识别与监测有利于提高管道的风险管理水平和可靠性。通过分析卫星遥感技术在地质灾害识别与监测方面的应用思路,以及卫星遥感技术在国内外油气管道行业的案例,总结了卫星遥感技术在管道行业的应用现状和发展历程。结合目前卫星遥感对地监测识别方法与原理,探讨了未来卫星遥感在油气管道地质灾害领域的发展趋势,提出利用雷达卫星遥感地表位移监测技术与管体变形监测技术相结合进行管土相互作用关系分析,为深入开展智慧管道应用实践提供技术支持。(表2,参27)
With the expansion of oil and gas pipeline network in China, the comprehensive identification and monitoring on geological hazards of long-distance oil and gas pipelines is benificial to improving the risk management of pipeline and the reliability of pipeline network. In this paper, the application status and development history of satellite remote sensing technology in the industry of pipeline were summarized by analyzing the application idea of satellite remote sensing technology to the identification and monitoring of geological hazards and its application cases in the industry of pipeline at home and abroad. Then, based on the method and principle of satellite remote sensing to monitor and identify geological hazards, the development trend of satellite remote sensing technology in the field of geological hazard identification and monitoring of oil and gas pipeline was discussed. Finally, it was proposed to combine the surface displacement monitoring technology based on radar satellite remote sensing with the pipe deformation monitoring technology to analyze the interaction relationship between pipe and soil. The research results could provide technical support for the further application practice of intelligent pipelines.(2 Tables, 27 References)
With the expansion of oil and gas pipeline network in China, the comprehensive identification and monitoring on geological hazards of long-distance oil and gas pipelines is benificial to improving the risk management of pipeline and the reliability of pipeline network. In this paper, the application status and development history of satellite remote sensing technology in the industry of pipeline were summarized by analyzing the application idea of satellite remote sensing technology to the identification and monitoring of geological hazards and its application cases in the industry of pipeline at home and abroad. Then, based on the method and principle of satellite remote sensing to monitor and identify geological hazards, the development trend of satellite remote sensing technology in the field of geological hazard identification and monitoring of oil and gas pipeline was discussed. Finally, it was proposed to combine the surface displacement monitoring technology based on radar satellite remote sensing with the pipe deformation monitoring technology to analyze the interaction relationship between pipe and soil. The research results could provide technical support for the further application practice of intelligent pipelines.(2 Tables, 27 References)
引文
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[3]陈朋超,李俊,刘建平.光纤光栅埋地管道滑坡区监测技术及应用[J].岩土工程学报,2010,32(6):897-902.CHEN P C,LI J,LIU J P.Monitoring technology of pipelines using fiber bragg grating and its application in landslide areas[J].Chinese Journal of Geotechnical Engineering,2010,32(6):897-902.
[4]褚宏亮,殷跃平,曹峰,等.大型崩滑灾害变形三维激光扫描监测技术研究[J].水文地质工程地质,2015,42(3):128-134.CHU H L,YIN Y P,CAO F,et al.Research on deformation monitoring of large collapses and landslides based on 3D laser scanning technology[J].Hydrogeology&Engineering Geology,2015,42(3):128-134.
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[6]申晋利,钱凯俊,张强,等.遥感技术在复杂地区管道线路遴选中的应用[J].遥感信息,2014,29(3):105-107.SHEN J L,QIAN K J,ZHANG Q,et al.Application of remote sensing technology in pipeline selection in mountainous area[J].Remote Sensing Information,2014,29(3):105-107.
[7]支焕,蒋华义,高志亮,等.卫星监测技术在输油管道泄漏中的应用[J].油气储运,2011,30(12):957-959.ZHI H,JIANG H Y,GAO Z L,et al.Satellite monitoring technology for leakage detection of oil pipeline[J].Oil&Gas Storage and Transportation,2011,30(12):957-959.
[8]南立团,陈利琼,段永红,等.卫星监测技术在预防管道第三方破坏中的应用[J].油气储运,2010,29(9):656-659.NAN L T,CHEN L Q,DUAN Y H,et al.Application of satellite monitoring technology in preventing the third party damage in pipelines[J].Oil&Gas Storage and Transportation,2010,29(9):656-659.
[9]冯伟,于恩禄,王小丽,等.卫星照片在国外油气管道研究中的应用[J].天然气与石油,2015,33(2):13-17.FENG W,YU E L,WANG X L,et al.Application of satellite photos in researches on foreign oil and gas pipelines[J].Natural Gas and Oil,2015,33(2):13-17.
[10]刘丽,万仕平.卫星遥感技术在油气长输管道勘察设计中的应用[J].天然气与石油,2010,28(1):29-32.LIU L,WAN S P.Application of satellite remote sensing technology in oil and gas long-distance pipeline survey and design[J].Natural Gas and Oil,2010,28(1):29-32.
[11]王世洪,翟光明,张友焱.基于遥感检测的输油管道泥石流灾害危险性评价[J].中国地质灾害与防治学报,2009,20(2):36-40.WANG S H,ZHAI G M,ZHANG Y Y.Hazard evaluation of debris flow for pipeline based on remote-sensing detection[J].The Chinese Journal of Geological Hazard and Control,2009,20(2):36-40.
[12]张士虎,胥兵,胡珺.滑坡地质灾害遥感解译在忠县-武汉输气管道工程西部山地段的应用[J].资源环境与工程,2012,26(4):158-161.ZHANG S H,XU B,HU J.Application of remote sensing interpretation in western section of Zhongxian-Wuhan Gas Pipeline Project[J].Resources Environment&Engineering,2012,26(4):158-161.
[13]马凤山,李国庆,张亚民,等.西气东输管道靖边-延川段地质灾害遥感识别及危险性评价[J].工程地质学报,2008,16(增刊1):138-144.MA F S,LI G Q,ZHANG Y M,et al.Geological hazard evaluation of oil-gas pipeline in loess area based on multiple remote sensing information[J].Journal of Engineering Geology,2008,16(S1):138-144.
[14]HERBERT K W,HANN M J.Modelling soil erosion risk for pipelines using remote sensed data[J].Biosystems Engineering,2014,127:135-143.
[15]OSEJO J,MORANTE G,GAMARRA L,et al.Applications of satellite images in the environmental evaluation of gas pipeline project[C].Calgary:7th SPE International Conference,2004:SPE-86774-MS.
[16]RIDDER J,ANDRèB.Pipeline integrity management from space[C].Berlin:9th Pipeline Technology Conference,2014:86774.
[17]PALMER-JONES R,HOPKINS P,FRASER A,et al.Evaluation of satellite technology for pipeline route surveillance and the prevention of third-party interference damage[C].Rio:Rio Pipeline Conference&Exposition,2003:IBP347-030.
[18]单新建,马瑾,柳稼航,等.星载D-InSAR技术及初步应用——以西藏玛尼地震为例[J].地震地质,2001,23(3):439-446.SHAN X J,MA J,LIU J H,et al.The theory of D-InSARand its application to mapping the displacement fields of earthquake[J].Seismology and Geology,2001,23(3):439-446.
[19]李德仁,廖明生,王艳.永久散射体雷达干涉测量技术[J].武汉大学学报(信息科学版),2004,29(8):664-668.LI D R,LIAO M S,WANG Y.Progress of permanent scatterer interferometry[J].Geomatics and Information Science of Wuhan University,2004,29(8):664-668.
[20]陈国浒,刘云华,单新建.PS-InSAR技术在北京采空塌陷区地表形变测量中的应用探析[J].中国地质灾害与防治学报,2010,21(2):59-63.CHEN G H,LIU Y H,SHAN X J.Application of PS-InSARtechnique in the deformation monitoring in mining collapse areas in Beijing[J].The Chinese Journal of Geological Hazard and Control,2010,21(2):59-63.
[21]师红云,刘广,杨松林.基于时序InSAR技术的京津高铁区域沉降稳定性评估[J].北京交通大学学报,2014,38(6):78-81.SHI H Y,LIU G,YANG S L.Regional subsidence stability evaluation along Jingjin high-speed railway based on MT-In SAR[J].Journal of Beijing Jiaotong University,2014,38(6):78-81.
[22]郭山川,侯湖平,张绍良,等.时序InSAR在城市地铁工程区形变监测中的应用[J].测绘通报,2017(8):92-99.GUO S C,HOU H P,ZHANG S L,et al.Application of multitemporal InSAR in deformation monitoring of urban subway construction area[J].Bulletin of Surveying and Mapping,2017(8):92-99.
[23]M I C H A E L R,C A R O L I N E R,D E F I N I E N S A,e t a l.Application of ground movement and automated route planning technologies for pipeline planning and management[C].Calgary:6th International Pipeline Conference,2006:10545.
[24]BAGLIANI A,MOSCONI A,MARZORATI D,et al.Use of satellite radar data for surface deformation monitoring:A wrapup after 10 years of experimentation[C].Florence:SPE Annual Technical Conference,2010:135018.
[25]MICHAEL D H,BENJAMIN D,GILLIAN R,et al.Multi-satellite In SAR deformation analysis for pipeline monitoring:Operational application,results and validation in the Belridge oil field[C].Calgary:10th International Pipeline Conference,2014:33665.
[26]MICHAEL D H,BENJAMIN D,GILLIAN R,et al.Preliminary monitoring of ground slumping across a natural gas distribution network with satellite radar[C].Calgary:11th International Pipeline Conference,2016:64378.
[27]TAMBURINI A,CONTE S D,FERRETTI A,et al.Advanced satellite InSAR technology for fault analysis and tectonic setting assessment:Application to reservoir management and monitoring[C].Doha:International Petroleum Technology Conference,2014:1349-1357.
[2]谭东杰,郑军,马云宾,等.漠大管道在沿线多年冻土区的位移监测[J].油气储运,2012,31(10):737-739.TAN D J,ZHENG J,MA Y B,et al.Displacement monitoring of Mohe-Daqing Oil Pipeline in the permafrost area[J].Oil&Gas Storage and Transportation,2012,31(10):737-739.
[3]陈朋超,李俊,刘建平.光纤光栅埋地管道滑坡区监测技术及应用[J].岩土工程学报,2010,32(6):897-902.CHEN P C,LI J,LIU J P.Monitoring technology of pipelines using fiber bragg grating and its application in landslide areas[J].Chinese Journal of Geotechnical Engineering,2010,32(6):897-902.
[4]褚宏亮,殷跃平,曹峰,等.大型崩滑灾害变形三维激光扫描监测技术研究[J].水文地质工程地质,2015,42(3):128-134.CHU H L,YIN Y P,CAO F,et al.Research on deformation monitoring of large collapses and landslides based on 3D laser scanning technology[J].Hydrogeology&Engineering Geology,2015,42(3):128-134.
[5]卓宝熙.工程地质遥感判释与应用[M].北京:中国铁道出版社,2011:685-704.ZHUO B X.Remote sensing interpretation&application of geology engineering[M].Beijing:China Railway Publishing House,2011:685-704.
[6]申晋利,钱凯俊,张强,等.遥感技术在复杂地区管道线路遴选中的应用[J].遥感信息,2014,29(3):105-107.SHEN J L,QIAN K J,ZHANG Q,et al.Application of remote sensing technology in pipeline selection in mountainous area[J].Remote Sensing Information,2014,29(3):105-107.
[7]支焕,蒋华义,高志亮,等.卫星监测技术在输油管道泄漏中的应用[J].油气储运,2011,30(12):957-959.ZHI H,JIANG H Y,GAO Z L,et al.Satellite monitoring technology for leakage detection of oil pipeline[J].Oil&Gas Storage and Transportation,2011,30(12):957-959.
[8]南立团,陈利琼,段永红,等.卫星监测技术在预防管道第三方破坏中的应用[J].油气储运,2010,29(9):656-659.NAN L T,CHEN L Q,DUAN Y H,et al.Application of satellite monitoring technology in preventing the third party damage in pipelines[J].Oil&Gas Storage and Transportation,2010,29(9):656-659.
[9]冯伟,于恩禄,王小丽,等.卫星照片在国外油气管道研究中的应用[J].天然气与石油,2015,33(2):13-17.FENG W,YU E L,WANG X L,et al.Application of satellite photos in researches on foreign oil and gas pipelines[J].Natural Gas and Oil,2015,33(2):13-17.
[10]刘丽,万仕平.卫星遥感技术在油气长输管道勘察设计中的应用[J].天然气与石油,2010,28(1):29-32.LIU L,WAN S P.Application of satellite remote sensing technology in oil and gas long-distance pipeline survey and design[J].Natural Gas and Oil,2010,28(1):29-32.
[11]王世洪,翟光明,张友焱.基于遥感检测的输油管道泥石流灾害危险性评价[J].中国地质灾害与防治学报,2009,20(2):36-40.WANG S H,ZHAI G M,ZHANG Y Y.Hazard evaluation of debris flow for pipeline based on remote-sensing detection[J].The Chinese Journal of Geological Hazard and Control,2009,20(2):36-40.
[12]张士虎,胥兵,胡珺.滑坡地质灾害遥感解译在忠县-武汉输气管道工程西部山地段的应用[J].资源环境与工程,2012,26(4):158-161.ZHANG S H,XU B,HU J.Application of remote sensing interpretation in western section of Zhongxian-Wuhan Gas Pipeline Project[J].Resources Environment&Engineering,2012,26(4):158-161.
[13]马凤山,李国庆,张亚民,等.西气东输管道靖边-延川段地质灾害遥感识别及危险性评价[J].工程地质学报,2008,16(增刊1):138-144.MA F S,LI G Q,ZHANG Y M,et al.Geological hazard evaluation of oil-gas pipeline in loess area based on multiple remote sensing information[J].Journal of Engineering Geology,2008,16(S1):138-144.
[14]HERBERT K W,HANN M J.Modelling soil erosion risk for pipelines using remote sensed data[J].Biosystems Engineering,2014,127:135-143.
[15]OSEJO J,MORANTE G,GAMARRA L,et al.Applications of satellite images in the environmental evaluation of gas pipeline project[C].Calgary:7th SPE International Conference,2004:SPE-86774-MS.
[16]RIDDER J,ANDRèB.Pipeline integrity management from space[C].Berlin:9th Pipeline Technology Conference,2014:86774.
[17]PALMER-JONES R,HOPKINS P,FRASER A,et al.Evaluation of satellite technology for pipeline route surveillance and the prevention of third-party interference damage[C].Rio:Rio Pipeline Conference&Exposition,2003:IBP347-030.
[18]单新建,马瑾,柳稼航,等.星载D-InSAR技术及初步应用——以西藏玛尼地震为例[J].地震地质,2001,23(3):439-446.SHAN X J,MA J,LIU J H,et al.The theory of D-InSARand its application to mapping the displacement fields of earthquake[J].Seismology and Geology,2001,23(3):439-446.
[19]李德仁,廖明生,王艳.永久散射体雷达干涉测量技术[J].武汉大学学报(信息科学版),2004,29(8):664-668.LI D R,LIAO M S,WANG Y.Progress of permanent scatterer interferometry[J].Geomatics and Information Science of Wuhan University,2004,29(8):664-668.
[20]陈国浒,刘云华,单新建.PS-InSAR技术在北京采空塌陷区地表形变测量中的应用探析[J].中国地质灾害与防治学报,2010,21(2):59-63.CHEN G H,LIU Y H,SHAN X J.Application of PS-InSARtechnique in the deformation monitoring in mining collapse areas in Beijing[J].The Chinese Journal of Geological Hazard and Control,2010,21(2):59-63.
[21]师红云,刘广,杨松林.基于时序InSAR技术的京津高铁区域沉降稳定性评估[J].北京交通大学学报,2014,38(6):78-81.SHI H Y,LIU G,YANG S L.Regional subsidence stability evaluation along Jingjin high-speed railway based on MT-In SAR[J].Journal of Beijing Jiaotong University,2014,38(6):78-81.
[22]郭山川,侯湖平,张绍良,等.时序InSAR在城市地铁工程区形变监测中的应用[J].测绘通报,2017(8):92-99.GUO S C,HOU H P,ZHANG S L,et al.Application of multitemporal InSAR in deformation monitoring of urban subway construction area[J].Bulletin of Surveying and Mapping,2017(8):92-99.
[23]M I C H A E L R,C A R O L I N E R,D E F I N I E N S A,e t a l.Application of ground movement and automated route planning technologies for pipeline planning and management[C].Calgary:6th International Pipeline Conference,2006:10545.
[24]BAGLIANI A,MOSCONI A,MARZORATI D,et al.Use of satellite radar data for surface deformation monitoring:A wrapup after 10 years of experimentation[C].Florence:SPE Annual Technical Conference,2010:135018.
[25]MICHAEL D H,BENJAMIN D,GILLIAN R,et al.Multi-satellite In SAR deformation analysis for pipeline monitoring:Operational application,results and validation in the Belridge oil field[C].Calgary:10th International Pipeline Conference,2014:33665.
[26]MICHAEL D H,BENJAMIN D,GILLIAN R,et al.Preliminary monitoring of ground slumping across a natural gas distribution network with satellite radar[C].Calgary:11th International Pipeline Conference,2016:64378.
[27]TAMBURINI A,CONTE S D,FERRETTI A,et al.Advanced satellite InSAR technology for fault analysis and tectonic setting assessment:Application to reservoir management and monitoring[C].Doha:International Petroleum Technology Conference,2014:1349-1357.