深水无隔水管泥浆举升钻井系统配置及安装流程
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摘要
在对深水无隔水管泥浆举升钻井系统关键设备和水力学计算结果分析的基础上,提出了水深500m和1 500m情况下的无隔水管泥浆举升系统配置方案。针对不同水深情况,给出系统布放方案选择的原则,提出舷侧布放和月池布放2种方案,并对不同布放方案的优缺点进行分析。结合目前无隔水管泥浆举升钻井工艺应用情况,对不同水深情况下系统安装的平台准备和水下设备下入流程进行分析。通过对无隔水管泥浆举升钻井系统与现有海洋装备的匹配及其配置与安装流程制定的研究,对于经济有效地达到钻井目标具有重要指导意义。
Based on the analysis of the essential equipments and hydraulic calculation results of the deepwater non-riser mud recovery system,this paper presented the respective configuration of the non-riser mud recovery system in the case of the water depth is 500 m and 1500 m.With deliberation on the different water depth,the paper presented two arrangement deployments,over-the-side and moon pool deployments,and analyzed the advantages and disadvantages of these two arrangement deployments.Combined with the development of the non-riser mud recovery drilling system,a study of rig preparation and procedures of subsea equipments installation was made,considering the difference of water depth.According the research of the machine of the non-riser mud recovery drilling system and existing offshore drilling equipments,this paper has important directive significance for the achievement of deepwater drilling objective.
Based on the analysis of the essential equipments and hydraulic calculation results of the deepwater non-riser mud recovery system,this paper presented the respective configuration of the non-riser mud recovery system in the case of the water depth is 500 m and 1500 m.With deliberation on the different water depth,the paper presented two arrangement deployments,over-the-side and moon pool deployments,and analyzed the advantages and disadvantages of these two arrangement deployments.Combined with the development of the non-riser mud recovery drilling system,a study of rig preparation and procedures of subsea equipments installation was made,considering the difference of water depth.According the research of the machine of the non-riser mud recovery drilling system and existing offshore drilling equipments,this paper has important directive significance for the achievement of deepwater drilling objective.
引文
[1]John Shaughnessy and William Daugherty,Bp America etal.More Ultradeepwater Drilling Problem[R].SPE/IADC 105792,2007.
[2]Mamdouh M Salama.Some Challenges and Innovations for Deepwater Developments[G].OTC8455,1997.
[3]白云程,周晓惠,万群,等.世界深水油气勘探现状及面临的挑战[J].特种油气藏,2008,15(2):7-10.
[4]徐群,陈国明,王国栋,等.无隔水管海洋钻井技术[J].钻采工艺,2011,34(1):11-13.
[5]刘志斌,郝召兵,伍向阳.深水钻探面临的挑战:浅水流灾害问题[J].地球物理系进展,2008,23(2):552-557.
[6]侯福祥,王辉,任荣权,等.海洋深水钻井关键技术及设备[J].石油矿场机械,2009,38(12):1-4.
[7]Paul Scott,Sam Ledbetter,Rick Chester,et al.Pushing the Limits of Riserless Deepwater Drilling[G].AADE-06-DF-HO-30.Houston:AADE Drilling Fluids Confer-ence,2006-04-11.
[8]STAVE R,FARESTVEIT R,HYLAND S,et al.Dem-onstration and qualification of a riserless dual gradient system[G].OTC17665,2005.
[9]JONGGEUN Choe.Analysis of riserless drilling sys-tem and well control[R].SPE55056,1999.
[10]BROWN J D,THOROGOOD J L,UNVANT V V,et al.Deployment of a riserless mud recovery system off-shore sakhalin island[R].SPE/IADC105212,2007.
[11]ALFORD S E,ASKO A,CAMPBELL M,et al.Sili-catebased fluid,mud recovery system combine to sta-bilize surface formations of Azeri wells[R].SPE/IADC92769,2005.
[12]陈国明,殷志明,许亮斌,等.深水双梯度钻井技术研究进展[J].石油勘探与开发,2007,34(2):246-251.
[13]方华灿.海洋深水双梯度钻井用水下设备[J].石油矿场机械,2008,37(11):1-6.
[14]蒋宏伟,周英操,赵庆,等.控压钻井关键技术研究[J].石油矿场机械,2012,41(1):1-5.
[15]高本金,陈国明,殷志明,等.深水无隔水管钻井液回收钻井技术[J].石油钻采工艺,2009,31(2):44-47.
[16]Dave Smith,Warren Winters,Brian Tarr,et al.Deep-water Riserless Mud Return System for Dual Gradient Tophole Drilling[R].SPE/IADC130308,2010.
[17]Greg Myers.Ultra-Deepwater Riserless Mud Circula-tion with Dual Gradient Drilling[J].Scientific Drill-ing,2008(6):48-51.
[18]周昌静,陈国明,高本金,等.海底泥浆举升叶片圆盘泵轴向力预测[J].石油矿场机械,2011,40(3):28-31.
[19]Cohen J H,Kleppe J,Gronas T,et al.Gulf of Mexico’s First Application of Riserless Mud Recovery for Top-hole Drilling——A Case Study[G].OTC 20939,2010.
[2]Mamdouh M Salama.Some Challenges and Innovations for Deepwater Developments[G].OTC8455,1997.
[3]白云程,周晓惠,万群,等.世界深水油气勘探现状及面临的挑战[J].特种油气藏,2008,15(2):7-10.
[4]徐群,陈国明,王国栋,等.无隔水管海洋钻井技术[J].钻采工艺,2011,34(1):11-13.
[5]刘志斌,郝召兵,伍向阳.深水钻探面临的挑战:浅水流灾害问题[J].地球物理系进展,2008,23(2):552-557.
[6]侯福祥,王辉,任荣权,等.海洋深水钻井关键技术及设备[J].石油矿场机械,2009,38(12):1-4.
[7]Paul Scott,Sam Ledbetter,Rick Chester,et al.Pushing the Limits of Riserless Deepwater Drilling[G].AADE-06-DF-HO-30.Houston:AADE Drilling Fluids Confer-ence,2006-04-11.
[8]STAVE R,FARESTVEIT R,HYLAND S,et al.Dem-onstration and qualification of a riserless dual gradient system[G].OTC17665,2005.
[9]JONGGEUN Choe.Analysis of riserless drilling sys-tem and well control[R].SPE55056,1999.
[10]BROWN J D,THOROGOOD J L,UNVANT V V,et al.Deployment of a riserless mud recovery system off-shore sakhalin island[R].SPE/IADC105212,2007.
[11]ALFORD S E,ASKO A,CAMPBELL M,et al.Sili-catebased fluid,mud recovery system combine to sta-bilize surface formations of Azeri wells[R].SPE/IADC92769,2005.
[12]陈国明,殷志明,许亮斌,等.深水双梯度钻井技术研究进展[J].石油勘探与开发,2007,34(2):246-251.
[13]方华灿.海洋深水双梯度钻井用水下设备[J].石油矿场机械,2008,37(11):1-6.
[14]蒋宏伟,周英操,赵庆,等.控压钻井关键技术研究[J].石油矿场机械,2012,41(1):1-5.
[15]高本金,陈国明,殷志明,等.深水无隔水管钻井液回收钻井技术[J].石油钻采工艺,2009,31(2):44-47.
[16]Dave Smith,Warren Winters,Brian Tarr,et al.Deep-water Riserless Mud Return System for Dual Gradient Tophole Drilling[R].SPE/IADC130308,2010.
[17]Greg Myers.Ultra-Deepwater Riserless Mud Circula-tion with Dual Gradient Drilling[J].Scientific Drill-ing,2008(6):48-51.
[18]周昌静,陈国明,高本金,等.海底泥浆举升叶片圆盘泵轴向力预测[J].石油矿场机械,2011,40(3):28-31.
[19]Cohen J H,Kleppe J,Gronas T,et al.Gulf of Mexico’s First Application of Riserless Mud Recovery for Top-hole Drilling——A Case Study[G].OTC 20939,2010.
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