Detection performance and inversion processing of logging-while-drilling extra-deep azimuthal resistivity measurements 被引量：8

下载PDF

导出

摘要 We present systematic investigations on the physics,detection performance and inversion of logging-while-drilling extradeep azimuthal resistivity measurements(EDARM).First,the definitions of EDRAM measurements are discussed,followed by the derivation of the attenuation and phase-shift geometrical factors to illustrate the relative contributions of formation units to the observed signals.Then,a new definition of detection depth,which considers the uncertainty of inversion results caused by the data noise,is proposed to quantify the detection capability of ED ARM.Finally,the B ayesian theory associated with Markov chain Monte Carlo sampling is introduced for fast processing of EDARM data.Numerical results show that ED ARM is capable of detecting the azimuth and distance of remote bed boundaries,and the detection capability increases with increasing spacing and resistivity contrast.The EDARM tool can accommodate a large range of formation resistivity and is able to provide the resistivity anisotropy at arbitrary relative dipping angles.In addition,multiple bed boundaries and reservoir images near the borehole are readily obtained by using the Bayesian inversion.

作者 Lei Wang Shao-Gui Deng Pan Zhang Ying-Chang Cao Yi-Ren Fan Xi-Yong Yuan

机构地区 School of Geosciences Laboratory for Marine Mineral Resources CNPC Key Laboratory for Well Logging

出处《Petroleum Science》 SCIE CAS CSCD 2019年第5期1015-1027,共13页 石油科学（英文版）

基金 co-funded by Chinese Postdoctoral Science Foundation(2018M640663) the National Natural Science Foundation of China(41474100,41574118,41674131) National Science and Technology Major Project of the Ministry of Science and Technology of China(2017ZX05009-001)

关键词 Extra-deep azimuthal resistivity measurements(EDARM) Detection performance Inversion method Reservoir imaging Detection of multiple bed boundaries

分类号 P631.811 [天文地球—地质矿产勘探]

引文网络
相关文献

参考文献10

1LI JianHao.Integral equation of relationship on the apparent conductivity and true conductivity in induction logging[J].Science China Earth Sciences,2014,57(8):1972-1978. 被引量：4
2洪德成,杨善德.大介电常数地层中多分量感应测井响应研究[J].物理学报,2011,60(10):773-780. 被引量：5
3洪德成,肖加奇,张国艳,赵彦伟,梁小兵.大斜度井中利用交叉分量快速反演井斜角[J].地球物理学报,2013,56(7):2494-2501. 被引量：8
4刘乃震,王忠,刘策.随钻电磁波传播方位电阻率仪地质导向关键技术[J].地球物理学报,2015,58(5):1767-1775. 被引量：29
5Deng Shaogui,Sun Qingtao,Li Hu,Huo Ningning,He Xuquan.The sensitivity of the array resistivity log to mud filtrate invasion and its primary five-parameter inversion for improved oil water recognition[J].Petroleum Science,2012,9(3):295-302. 被引量：3
6王磊,范宜仁,黄瑞,韩玉娇,巫振观,邢东辉,李炜.各向异性介质多分量感应测井三维Born几何因子理论研究[J].物理学报,2015,64(23):430-440. 被引量：15
7巫振观,范宜仁,王磊,刘家雄,邢涛.随钻方位电磁波测井仪器偏心响应模拟及分析[J].中国石油大学学报（自然科学版）,2017,41(5):69-79. 被引量：9
8王浩森,杨守文,白彦,陈涛,汪宏年.非均质各向异性地层中方位随钻电磁测井响应三维有限体积法数值模拟算法[J].物理学报,2016,65(7):337-349. 被引量：15
9魏宝君,田坤,张旭,刘坤.定向电磁波传播随钻测量基本理论及其在地层界面预测中的应用[J].地球物理学报,2010,53(10):2507-2515. 被引量：29
10王磊,范宜仁,袁超,巫振观,邓少贵,赵伟娜.随钻方位电磁波测井反演模型选取及适用性[J].石油勘探与开发,2018,45(5):914-922. 被引量：21

二级参考文献49

1包德洲,周军,王正,谢树棋.新型阵列感应成像测井仪的研制与应用[J].测井技术,2004,28(6):547-550. 被引量：8
2李长喜,欧阳健,周灿灿,修立军.淡水钻井液侵入油层形成低电阻率环带的综合研究与应用分析[J].石油勘探与开发,2005,32(6):82-86. 被引量：34
3周灿灿,王昌学.水平井测井解释技术综述[J].地球物理学进展,2006,21(1):152-160. 被引量：97
4党瑞荣,王洪淼,谢雁.三分量感应测井仪及其对各向异性地层的识别[J].地球物理学进展,2006,21(4):1238-1243. 被引量：11
5Gao Jie,Zhao Aibin,Peng Fei,Li Hongqi.Inversion of Array Induction Logs and Its Application[J].Petroleum Science,2007,4(3):31-35. 被引量：7
6Klein J D,Martin P R,Allen D F.The petrophysics of electrically anisotropic reservoirs.The Log Analyst,1997,38(3):25-36. 被引量：1
7Kriegshauser B F,Fanini O N,Forgang S,et al.A new multicomponent induction logging tool to resolve anisotropic formation.SPWLA 41st Annual Logging Symposium,Houston,June 4-7,2000,Paper D. 被引量：1
8Rabinovich M,Tabarovsky L,Corley B,et al.Processing multi-component induction data for formation dip and azimuth in anisotropic formations.SPWLA 46th Annual Logging Symposium,Houston,June 26-29,2005,Paper XX. 被引量：1
9Rabinovic M,Gonfalini M,Rocque T,et al.Multi-component induction logging:10 years after.SPWLA 48th Annual Logging Symposium,Austin,June 3-6,2007,Paper CC. 被引量：1
10Roshal R,Barber T,Bonner S,et al.Field test results of an experimental fully-triaxial induction tool.SPWLA 44th Annual Logging Symposium,Houston,June 22-25,2003,Paper QQ. 被引量：1

共引文献96

1Xi-Yong Yuan,Shao-Gui Deng,Zhi-Qiang Li,Xiao-Mei Han,Xu-Fei Hu.Deep-detection of formation boundary using transient multicomponent electromagnetic logging measurements[J].Petroleum Science,2022,19(3):1085-1098. 被引量：1
2魏宝君,欧永峰,武杨,王莎莎,张克.柱状成层介质中倾斜线圈响应的模拟及其在电磁波传播随钻测量中的应用[J].中国石油大学学报（自然科学版）,2012,36(5):72-79. 被引量：4
3李虎,范宜仁,胡云云,邓少贵,孙庆涛.基于阵列感应与自然电位联合反演地层水电阻率[J].地球物理学报,2013,56(2):688-695. 被引量：14
4胡松,周灿灿,王昌学,李霞,程相志,徐波.泥页岩油气藏水平井评价对策与实践[J].地球物理学进展,2013,28(4):1877-1885. 被引量：5
5杨震,杨锦舟,韩来聚.随钻方位电磁波电阻率成像模拟及应用[J].吉林大学学报（地球科学版）,2013,43(6):2035-2043. 被引量：18
6邵才瑞,曹先军,陈国兴,张福明,姬嘉琦,唐建红.随钻伽马测井快速正演算法及地质导向应用[J].地球物理学报,2013,56(11):3932-3942. 被引量：21
7杨锦舟.随钻方位电磁波仪器界面预测影响因素分析[J].测井技术,2014,38(1):39-45. 被引量：5
8张克,魏宝君,常欣莉.定向随钻电磁波电阻率测井仪器地质导向方法初探[J].地球物理学进展,2014,29(1):462-469. 被引量：8
9刘庆龙,王瑞和.随钻方位电阻率边界探测影响因素分析[J].测井技术,2014,38(4):411-415. 被引量：9
10谢关宝,杨震,赵文杰.基于ICCG方法的随钻方位电磁波测井响应模拟研究[J].测井技术,2015,39(1):27-31. 被引量：3

同被引文献58

1WANG Hua-jun (Information Science & Engineering College, Huaqiao University, Quanzhou Fujian 362011, China).正余弦变换的数值滤波算法[J].工程地球物理学报,2004,1(4):329-335. 被引量：71
2莫平华.一阶贝塞尔函数广义积分的数值计算[J].数学理论与应用,2007,27(1):65-67. 被引量：7
3魏宝君,张庚骥,LIU Qinghuo.层状单轴各向异性介质并矢Green函数的递推算法及精确计算[J].中国科学（E辑）,2007,37(6):836-850. 被引量：8
4Gao Jie,Zhao Aibin,Peng Fei,Li Hongqi.Inversion of Array Induction Logs and Its Application[J].Petroleum Science,2007,4(3):31-35. 被引量：7
5魏宝君,田坤,张旭,刘坤.定向电磁波传播随钻测量基本理论及其在地层界面预测中的应用[J].地球物理学报,2010,53(10):2507-2515. 被引量：29
6邹才能,董大忠,王社教,李建忠,李新景,王玉满,李登华,程克明.中国页岩气形成机理、地质特征及资源潜力[J].石油勘探与开发,2010,37(6):641-653. 被引量：1263
7姚东华,汪宏年,杨守文,杨海亮.用传播矩阵法研究层状正交各向异性地层中多分量感应测井响应[J].地球物理学报,2010,53(12):3026-3037. 被引量：19
8Deng Shaogui,Fan Yiren,Li Zhiqiang,Sun Qingtao.Response characteristics of array lateral logs and their primary inversion in reservoirs with fracture-induced anisotropy[J].Petroleum Science,2011,8(1):11-16. 被引量：4
9董大忠,邹才能,李建忠,王社教,李新景,王玉满,李登华,黄金亮.页岩气资源潜力与勘探开发前景[J].地质通报,2011,31(2):324-336. 被引量：259
10洪德成,杨善德.大介电常数地层中多分量感应测井响应研究[J].物理学报,2011,60(10):773-780. 被引量：5

引证文献8

1Xi-Yong Yuan,Shao-Gui Deng,Zhi-Qiang Li,Xiao-Mei Han,Xu-Fei Hu.Deep-detection of formation boundary using transient multicomponent electromagnetic logging measurements[J].Petroleum Science,2022,19(3):1085-1098. 被引量：1
2杨书博,乔文孝,赵琪琪,倪卫宁,吴金平.随钻前视声波测井钻头前方声场特征研究[J].石油钻探技术,2021,49(2):113-120. 被引量：9
3邓少贵,刘天淋,蔡联云,来姝君,令狐松,王正楷.基于多分量感应测井的地层水平电阻率快速提取方法及应用[J].地球物理学报,2021,64(6):2199-2209. 被引量：5
4张盼,邓少贵,胡旭飞,王磊,王正楷,袁习勇,蔡联云.超深随钻方位电磁波测井探测特性及参数敏感性分析[J].地球物理学报,2021,64(6):2210-2219. 被引量：7
5岳喜洲,刘天淋,李国玉,聂在平,马明学,孙向阳.随钻方位电磁波测井响应快速正演方法与地质导向应用[J].地球物理学报,2022,65(5):1909-1920. 被引量：6
6Lei Wang,Shao-Gui Deng,Guan-Bao Xie,Shan-Jun Li,Zhen-Guan Wu,Yi-Ren Fan.A new deep-reading look-ahead method in electromagnetic loggingwhile-drilling using the scattered electric field from magnetic dipole antennas[J].Petroleum Science,2022,19(1):180-188. 被引量：1
7刘天淋,岳喜洲,李国玉,马明学,王仡仡.超深探测随钻电磁波测井地质信号特性研究[J].石油钻探技术,2022,50(6):41-48. 被引量：6
8陈刚,李泉新,刘志毅,陈龙,张意.基于方位电磁波的煤岩层界面及低阻异常体探测方法[J].Applied Geophysics,2023,20(2):157-166.

二级引证文献32

1张意,冯宏,韩雪,陈刚,蒋必辞.石油电磁测井技术发展中的一些关键问题[J].石油地球物理勘探,2021,56(6):1430-1447. 被引量：9
2岳喜洲,刘天淋,李国玉,聂在平,马明学,孙向阳.随钻方位电磁波测井响应快速正演方法与地质导向应用[J].地球物理学报,2022,65(5):1909-1920. 被引量：6
3刘西恩,孙志峰,仇傲,李杰,罗博,彭凯旋,罗瑜林.随钻四极子声波测井仪的设计及试验[J].石油钻探技术,2022,50(3):125-131. 被引量：7
4简旭,李皋,王军,韩旭,黄兵,王松涛.气体钻井声波超前测距方法与数值模拟[J].石油钻探技术,2022,50(3):132-138. 被引量：1
5季新标,李爱勇,丰扬,秦才会,翟金海.三分量感应测井仪线圈设计探讨[J].中国仪器仪表,2022(3):78-84. 被引量：1
6郝小龙,高国寅,王伟,杨诚.声波测井井下处理算法开发的上位机软件设计[J].石油化工应用,2022,41(9):101-104.
7李国玉,洪德成,岳喜洲,刘天淋,武圣哲,马明学.圆柱地层模型中超深方位电磁波仪器磁场信号模拟[J].中国石油大学学报（自然科学版）,2022,46(5):46-58. 被引量：1
8吴柏志,杨震,郭同政,袁习勇.多尺度随钻方位电磁波测井系统响应特征研究[J].石油钻探技术,2022,50(6):7-13. 被引量：5
9李皋,黎洪志,简旭,王军,王松涛.气体钻井超前探测震源工具设计及力学性能模拟研究[J].石油钻探技术,2022,50(6):14-20. 被引量：1
10刘天淋,岳喜洲,李国玉,马明学,王仡仡.超深探测随钻电磁波测井地质信号特性研究[J].石油钻探技术,2022,50(6):41-48. 被引量：6

1Kang Zheng-Ming,Ke Shi-Zhen,Li Xin,Mi Jin-Tai,Ni Wei-Ning,Li Ming-Yu.3D FEM simulation of responses of LWD multi-mode resistivity imaging sonde[J].Applied Geophysics,2018,15(3):401-412. 被引量：4
2Manzar Ahmed,Asif Nawaz,Mishaal Ahmed,Muhammad Shoaib Farooq.Decentralized Power Control Strategy in Microgrid for Smart Homes[J].Smart Grid and Renewable Energy,2019,10(3):43-53.
3Nina N.Nevedrova,Aidisa M.Sanchaa,Alexander E.Shalaginov,Sergey M.Babushkin.Electromagnetic monitoring in the region of seismic activization (on the Gorny Altai (Russia) example)[J].Geodesy and Geodynamics,2019,10(6):460-470. 被引量：1
4Miao-Xin Yang,Han-Dong Tan,Mao Wang,Huan Ma.Two-Dimensional Magnetotelluric Forward Research for the Vertical Anisotropy[J].International Journal of Geosciences,2015,6(10):1166-1172. 被引量：1
5Rui Zhang,Jian-Ping Huang,Su-Bin Zhuang,Zhen-Chun Li.Target-oriented Gaussian beam migration using a modif ied ray tracing scheme[J].Petroleum Science,2019,16(6):1301-1319. 被引量：5
6YUAN Chao,LI Chaoliu,ZHOU Cancan,XIAO Qiyao,LI Xia,FAN Yiren,YU Jun,WANG Lei,XING Tao.Forward simulation of array laterolog resistivity in anisotropic formation and its application[J].Petroleum Exploration and Development,2020,47(1):80-88.
7Jinyin Chen.A Novel Radius Adaptive Based on Center-Optimized Hybrid Detector Generation Algorithm[J].IEEE/CAA Journal of Automatica Sinica,2020,7(6):1627-1637. 被引量：1
8Juan Wen,Xiao-Hong Li,Qiu-Ping Yang,Jian-Bin Yu.Clinical and dermoscopic features of livedoid vasculopathy[J].Chinese Medical Journal,2020(17):2137-2138. 被引量：4
9Linna Hu,Ning Cao,Rui Shi,Xue Cai,Minghe Mao,Zhiyu Chen.Optimal Energy Efficiency Resource Allocation Strategy for Cognitive Clustering Network under PUEA Attack[J].China Communications,2020,17(10):249-263.
10Yanna Bai,Wei Chen,Bo Ai,Zhangdui Zhong.Contention-Based Nonorthogonal Massive Access with Massive MIMO[J].China Communications,2020,17(11):79-90. 被引量：3

Petroleum Science

2019年第5期

浏览历史

内容加载中请稍等...