页岩气开采技术综述分析
摘要
按照技术分类方法将页岩气开采技术分为增产技术和监测技术,并对主要的页岩气开采技术进行了综述分析,涉及水平井技术、分段压裂技术、同步压裂技术、重复压裂技术、清水压裂技术、超临界CO2压裂技术、水力喷射压裂技术、井下微地震裂缝监测技术、测斜仪裂缝监测技术、直接近井筒裂缝监测技术以及分布式声传感裂缝监测技术。
引文
[1]张大伟.页岩气发展规划(2011-2015年)解读[J].天然气工业,2012,32(4):6-8.
[2]薛承瑾.页岩气压裂技术现状及发展建议[J].石油钻探技术,2011,39(3):24-29.
[3]邱正松,高宏松,黄维安.页岩气钻探开发技术研究进展[J].西部探矿工程,2012,24(6):66-69.
[4]鲁文婷,谢希,汪敏,等.页岩气开发的关键技术[J].石油化工应用,2012,31(6):17-19.
[5]冯跃威.美国页岩气开发策略研究——美国的页岩气之梦[J].国际石油经济,2012,20(1):92-100.
[6]Brackett W.Powell Barnett Shale Newsletter 2010[EB/OL].http://www.barnettshalenews.com/documents/sample/Vol1-Powell%20Barnett%20Shale%20Newsletter%20Oct%2025%202010%20id=710.pdf.2010.10.25
[7]张然,李根生,杨林,等.页岩气增产技术现状及前景展望[J].石油机械,2011,39(S1):117-120.
[8]马超群,黄磊,范虎,等.页岩气井压裂技术及其效果评价[J].石油化工应用,2011,30(5):1-3.
[9]Grieser B,Shelley B,Johnson B J,et al.Data Analysis of Barnett ShaleCompletions[J].SPE Journal,2008,13(3):366-374.
[10]Mayerhofer M J,Lolon E P,Warpinski N R,et al.What isStimulated Rock Volume?[R].Fort Worth,Texas,USA:Societyof Petroleum Engineers,2008.
[11]Mutalik P.N,Williams C,et al.Case History of Sequential andSimultaneous Fracturing of theBarnett Shale in Parker County[R].Denver,Colorado,USA:Society of Petroleum Engineers,2008.
[12]崔青.美国页岩气压裂增产技术[J].石油化工应用,2010,29(10):1-3.
[13]黄玉珍,黄金亮,葛春梅,等.技术进步是推动美国页岩气快速发展的关键[J].天然气工业,2009,29(5):7-10.
[14]杨登科,王勇,刘权胜,等.国内外页岩气勘探开发技术研究现状及进展[J].石油化工应用,2012,31(2):1-4.
[15]王素兵.清水压裂工艺技术综述[J].天然气勘探与开发,2005,28(4):39-42.
[16]秦伟.页岩气革命重塑能源格局[J].装备制造,2012,(03):84-87.
[17]王海柱,沈忠厚,李根生.超临界CO2开发页岩气技术[J].石油钻探技术,2011,39(3):30-35.
[18]沈忠厚,王海柱,李根生.超临界CO2连续油管钻井可行性分析[J].石油勘探与开发,2010,37(6):743-747.
[19]沈忠厚.以超临界二氧化碳开发非常规油气藏[N].中国石化报,2012,9,10.
[20]Kolle J J,Marvin M H.Jet Assisted Drilling With Supercritical CarbonDioxide[R].Washington,USA:Tempress Technologies Inc.2000.
[21]Kolle J J.Coiled Tubing Drilling With Supercritical Carbon Dioxide[R].Calgary,Alberta,Canada:Society of Petroleum Engineers.2000.
[22]吕选鹏,周承富,陈辉,等.连续油管技术在页岩气勘探开发中应用前景[J].石油矿场机械,2012,41(2):67-70.
[23]Mcdanlel B W,Jim B S,Larry L,etal.EvolvingNewSimulation ProcessProve High Effective in Level 1 Dual-Lateral Completion[R].Lexington,Kentucky,USA:Society of Petroleum Engineers,2002.
[24]贾利春,陈勉,金衍.国外页岩气井水力压裂裂缝监测技术进展[J].天然气与石油,2012,30(1):44-47.
[25]Le Calvez J H,Klem R C,Bennett L,et al.Real-Time MicroseismicMonitoring of Hydraulic Fracture Treatment:A Tool To ImproveCompletion and Reservoir Management[R].College Station,Texas,USA:Society of Petroleum Engineers,2007.
[26]王治中,邓金根,赵振峰,等.井下微地震裂缝监测设计及压裂效果评价[J].大庆石油地质与开发,2006,25(6):76-78.
[27]Maxwell S.Microseismic Hydraulic Fracture Imaging:The Path TowardOptimizing Shale Gas Production[J].Shales,2011,3(30):340-346.
[2]薛承瑾.页岩气压裂技术现状及发展建议[J].石油钻探技术,2011,39(3):24-29.
[3]邱正松,高宏松,黄维安.页岩气钻探开发技术研究进展[J].西部探矿工程,2012,24(6):66-69.
[4]鲁文婷,谢希,汪敏,等.页岩气开发的关键技术[J].石油化工应用,2012,31(6):17-19.
[5]冯跃威.美国页岩气开发策略研究——美国的页岩气之梦[J].国际石油经济,2012,20(1):92-100.
[6]Brackett W.Powell Barnett Shale Newsletter 2010[EB/OL].http://www.barnettshalenews.com/documents/sample/Vol1-Powell%20Barnett%20Shale%20Newsletter%20Oct%2025%202010%20id=710.pdf.2010.10.25
[7]张然,李根生,杨林,等.页岩气增产技术现状及前景展望[J].石油机械,2011,39(S1):117-120.
[8]马超群,黄磊,范虎,等.页岩气井压裂技术及其效果评价[J].石油化工应用,2011,30(5):1-3.
[9]Grieser B,Shelley B,Johnson B J,et al.Data Analysis of Barnett ShaleCompletions[J].SPE Journal,2008,13(3):366-374.
[10]Mayerhofer M J,Lolon E P,Warpinski N R,et al.What isStimulated Rock Volume?[R].Fort Worth,Texas,USA:Societyof Petroleum Engineers,2008.
[11]Mutalik P.N,Williams C,et al.Case History of Sequential andSimultaneous Fracturing of theBarnett Shale in Parker County[R].Denver,Colorado,USA:Society of Petroleum Engineers,2008.
[12]崔青.美国页岩气压裂增产技术[J].石油化工应用,2010,29(10):1-3.
[13]黄玉珍,黄金亮,葛春梅,等.技术进步是推动美国页岩气快速发展的关键[J].天然气工业,2009,29(5):7-10.
[14]杨登科,王勇,刘权胜,等.国内外页岩气勘探开发技术研究现状及进展[J].石油化工应用,2012,31(2):1-4.
[15]王素兵.清水压裂工艺技术综述[J].天然气勘探与开发,2005,28(4):39-42.
[16]秦伟.页岩气革命重塑能源格局[J].装备制造,2012,(03):84-87.
[17]王海柱,沈忠厚,李根生.超临界CO2开发页岩气技术[J].石油钻探技术,2011,39(3):30-35.
[18]沈忠厚,王海柱,李根生.超临界CO2连续油管钻井可行性分析[J].石油勘探与开发,2010,37(6):743-747.
[19]沈忠厚.以超临界二氧化碳开发非常规油气藏[N].中国石化报,2012,9,10.
[20]Kolle J J,Marvin M H.Jet Assisted Drilling With Supercritical CarbonDioxide[R].Washington,USA:Tempress Technologies Inc.2000.
[21]Kolle J J.Coiled Tubing Drilling With Supercritical Carbon Dioxide[R].Calgary,Alberta,Canada:Society of Petroleum Engineers.2000.
[22]吕选鹏,周承富,陈辉,等.连续油管技术在页岩气勘探开发中应用前景[J].石油矿场机械,2012,41(2):67-70.
[23]Mcdanlel B W,Jim B S,Larry L,etal.EvolvingNewSimulation ProcessProve High Effective in Level 1 Dual-Lateral Completion[R].Lexington,Kentucky,USA:Society of Petroleum Engineers,2002.
[24]贾利春,陈勉,金衍.国外页岩气井水力压裂裂缝监测技术进展[J].天然气与石油,2012,30(1):44-47.
[25]Le Calvez J H,Klem R C,Bennett L,et al.Real-Time MicroseismicMonitoring of Hydraulic Fracture Treatment:A Tool To ImproveCompletion and Reservoir Management[R].College Station,Texas,USA:Society of Petroleum Engineers,2007.
[26]王治中,邓金根,赵振峰,等.井下微地震裂缝监测设计及压裂效果评价[J].大庆石油地质与开发,2006,25(6):76-78.
[27]Maxwell S.Microseismic Hydraulic Fracture Imaging:The Path TowardOptimizing Shale Gas Production[J].Shales,2011,3(30):340-346.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心