油气地震地质模型述评

doi:10.3969/j.issn.1673-8926.2018.01.002

岩性油气藏 ›› 2018, Vol. 30 ›› Issue (1): 19–29.doi: 10.3969/j.issn.1673-8926.2018.01.002

油气地震地质模型述评

刘振峰^1,2,3

1. 页岩油气富集机理与有效开发国家重点实验室, 北京 100083;
2. 国家能源页岩油研发中心, 北京 100083;
3. 中国石油化工股份有限公司石油勘探开发研究院, 北京 100083

收稿日期:2017-10-30 修回日期:2017-11-29 出版日期:2018-01-21 发布日期:2018-01-21
作者简介:刘振峰(1974-),男,博士,高级工程师,主要从事油气地球物理方面的研究工作。地址:(100083)北京市海淀区学院路31号中国石化石油勘探开发研究院油气地球物理研究中心。Email:liuzf.syky@sinopec.com。
基金资助:
国家重大科技专项课题“中西部地区碎屑岩领域勘探关键技术”（编号：2016ZX05002-005）和中国石化科技攻关项目“鄂南彬长地区长7致密油储层评价与甜点预测”（编号：P15087）联合资助

Review on oil and gas seismogeology models

LIU Zhenfeng^1,2,3

1. National Key Laboratory of Shale Oil and Gas Enrichment Mechanism and Effective Development, Beijing 100083, China;
2. National Energy Shale Oil Research and Development Center, Beijing 100083, China;
3. Sinopec Petroleum Exploration and Production Research Institute, Beijing 100083, China

Received:2017-10-30 Revised:2017-11-29 Online:2018-01-21 Published:2018-01-21

摘要/Abstract

摘要： 随着地震技术在石油工业界的广泛应用，加上油气勘探开发进程对地下地质情况提出的量化研究的需求，油气地震地质日益成为地质学中定量化研究程度较高的一个领域，而油气地震地质模型在量化研究中扮演了重要的角色。因应于油气地震地质相关研究领域的进展及应用实践，油气地震地质模型也种类繁多。从研究成果的承载形式出发，油气地震地质模型可以分为地质构造模型、地层沉积模型、储层地质模型和流体分布模型等四大类。首先对和这几类地震地质模型关系密切的地震偏移成像技术、地震沉积学分析方法、地震反演成像技术、物理模型和数据模型驱动的地震储层预测方法以及地震流体检测技术等进行阐述。考虑到地震地质研究的整体性和系统性，又对不同模型之间的尺度差异及耦合关系进行了分析。最后，结合近年来地震勘探技术进展，对逆时偏移成像技术、以全波形反演为代表的地震反演成像技术、物理模型及数据模型驱动的地震储层预测方法、基于频率和相位变化的地震流体检测技术等技术方法可能会给地震地质模型综合研究带来的影响进行了简要阐述。

关键词: 声发射计数, 单轴试验, 渐进式破裂, 突发式破裂, 岩石脆性

Abstract: Oil and gas seismogeology is more quantitative than other branches in geology for its employing seismic prospecting in petroleum industry and the need of quantitative research of underground objects in oil & gas exploration and development. Oil and gas seismogeology model plays an important role in corresponding quantitative researches. There are many seismogeology models with the research development of oil and gas seismogeology and its applications in petroleum industry. Oil and gas seismogeology models are often referred as the results of integrated seismogeology research,for this reason,it can be divided into four categories:geological structure model,strata sedimentary model,reservoir geological model and fluid distribution model. Based on these categories, this paper elaborated seismic migration,seismic sedimentology,seismic inversion imaging,seismic reservoir characterization methods driven by physical or datum model and seismic fluid identification,and all these technologies are linked closely with all kinds of seismogeology models mentioned above. In view of the integrality and systematicness of integrated seismic geology research,the scale difference and coupling pattern between seismogeology models should be taken seriously. Combined with the recent development of seismic exploration,this paper discussed reverse time migration,seismic inversion imaging marked by full waveform inversion,seismic reservoir characterization methods driven by physical or datum model,seismic fluid identification based on seismic frequency and phase variation,and their influence on seismogeology model research.

Key words: acoustic emission count, uniaxial test, progressive fracture, burst fracture, rock brittleness

中图分类号:

P631.4

刘振峰. 油气地震地质模型述评[J]. 岩性油气藏, 2018, 30(1): 19–29.

LIU Zhenfeng. Review on oil and gas seismogeology models[J]. Lithologic Reservoirs, 2018, 30(1): 19–29.

参考文献

[1] 王兴明,杨盛彪.试论模型方法在科学研究中的作用及其发展趋势.金属矿山,2001,11:1-4. WANG X M,YANG S B. Discussion on the function of modeling method in the scientific research and its development trend. Metal Mine,2001,11:1-4.
[2] 斯瓦尔扎克.沉积模型和定量地层学.徐桂荣,译.北京:地质出版社,1984. SCHWARZACHER W. Sedimentation models and quantitative stratigraphy. XU G R,trans. Beijing:Geological Publishing House, 1984.
[3] 袁秉衡,安延恺.地震地质的内涵与外延.石油学报,1982,3(增刊1):34-41. YUAN B H,AN Y K. On seismic geology. Acta Petrolei Sinica, 1982,3(Suppl 1):34-41.
[4] 林承焰,张宪国.石油地震地质学探讨及展望.岩性油气藏, 2011,23(1):17-21. LIN C Y,ZHANG X G. Development and prospect of petroleum seismogeology. Lithologic Reservoirs,2011,23(1):17-21.
[5] 刘震.储层地震地层学.北京:地质出版社,1997. LIU Z. Reservoir seismic stratigraphy. Beijing:Geological Publishing House,1997.
[6] ZENG H L,BACKUS M M,BARROW K T,et al. Stratal slicing, partⅠ:realistic 3-D seismic model. Geophysics,1998,63(2):502-513.
[7] ZENG H L,HENRY S C,RIOLA J P. Stratal slicing,partⅡ:real seismic data. Geophysics,1998,63(2):514-522.
[8] PENNINGTON W D. Reservoir geophysics. Geophysics,2001, 66(1):25-30.
[9] 罗群,黄捍东.地震成藏学的提出与应用.石油学报,2009,30(6):876-881. LUO Q,HUANG H D. Research on seismic-petroleum accumulation science and its application. Acta Petrolei Sinica,2009,30(6):876-881.
[10] 卫平生,潘建国,张虎权,等.地震储层学的概念、研究方法和关键技术.岩性油气藏,2010,22(2):1-6. WEI P S,PAN J G,ZHANG H Q,et al. Concept,method and technology of seismic reservoir. Lithologic Reservoirs,2010,22(2):1-6.
[11] 袁秉衡,徐礼贵,康南昌,等.石油地震地质学及相关技术进展.石油学报,2013,34(3):580-590. YUAN B H,XU L G,KANG N C,et al. Related technical advances in petroleum seismogeology. Acta Petrolei Sinica,2013,34(3):580-590.
[12] 马在田.论反射地震偏移成像.勘探地球物理进展,2002,25(3):1-5. MA Z T. On reflection seismic migration imaging. Progress in Exploration Geophysics,2002,25(3):1-5.
[13] 李振春.地震偏移成像技术研究现状与发展趋势.石油地球物理勘探,2014,49(1):1-21. LI Z C. Research status and development trends for seismic migration technology. Oil Geophysical Prospecting,2014,49(1):1-21.
[14] 王华忠,冯波,王雄文,等.地震波反演成像方法与技术核心问题分析.石油物探,2015,54(2):115-125. WANG H Z,FENG B,WANG X W,et al. Analysis of seismic inversion imaging and its technical core issues. Geophysical Prospecting for Petroleum,2015,54(2):115-125.
[15] 陈可洋,杨微,陈树民,等.逆时成像技术在大庆探区复杂构造成像中的应用.岩性油气藏,2017,29(6):91-100. CHEN K Y,YANG W,CHEN S M,et al. Application of reversetime migration technology to complex structural imaging in Daqing exploration area. Lithologic Reservoirs,2017,29(6):91-100.
[16] ZENG H L,JOHN A,JACKSON K G. Frequency-dependent seismic stratigraphy. SEG Technical Program Expanded Abstracts, 2009:1097-1101.
[17] ROKSANDIC M R. The role of seismic stratigraphy in interpretation. The Leading Edge,1994,13(2):118-119.
[18] GRESKO M G. Sequence stratigraphy,integrated studies,and the SEG. The Leading Edge,1994,13(10):1040-1042.
[19] POSAMENTIER H W. Stratigraphy and geomorphology of deepwater mass transport complexes based on 3D seismic data. SEG Technical Program Expanded Abstracts,2005:2300-2303.
[20] 凌云,高军,孙德胜,等.基于地质概念的空间相对分辨率地震勘探研究.石油物探,2007,46(5):433-450. LING Y,GAO J,SUN D S,et al. Spatially relative resolution based on geological concept and its application in seismic exploration. Geophysical Prospecting for Petroleum,2007,46(5):433-450.
[21] 赖生华,梁全胜,曾洪流,等.煤层对砂岩地震反射特征的影响及其地震岩性学意义. 石油地球物理勘探,2015,50(1):136-143. LAI S H,LIANG Q S,ZENG H L,et al. Influences of coal seam on seismic reflection characteristics of sand and significances of seismic lithology:a case study of Shan-2 member in Ordos Basin. Oil Geophysical Prospecting,2015,50(1):136-143.
[22] ZENG H L. Facies-guided 3-D seismic modeling and reservoir characterization. Austin:The University of Texas at Austin, 1994.
[23] 曾洪流.地震沉积学在中国:回顾和展望.沉积学报,2011,29(3):417-426. ZENG H L. Seismic sedimentology in China:a review. Acta Sedimentologica Sinica,2011,29(3):417-426.
[24] 裘亦楠,贾爱林. 储层地质模型10年. 石油学报,2000,21(4):101-104. QIU Y N,JIA A L. Development of geological reservoir modeling in past decade. Acta Petrolei Sinica,2000,21(4):101-104.
[25] 吴胜和,李宇鹏.储层地质建模的现状与展望.海相油气地质, 2007,12(3):53-60. WU S H,LI Y P. Reservoir modeling current situation and development prospect. Marine Origin Petroleum Geology,2007,12(3):53-60.
[26] 刘文岭.地震约束储层建模技术.石油学报,2008,29(1):64-74. LIU W L. Geological modeling technique for reservoir constrained by seismic data. Acta Petrolei Sinica,2008,29(1):64-74.
[27] 于兴河.油气储层表征与随机建模的发展历程及展望.地学前缘,2008,15(1):1-15. YU X H. A review of development course and prospect of petroleum reservoir characterization and stochastic modeling. Earth Science Frontiers,2008,15(1):1-15.
[28] 王家华.迎接油气储层建模理论、应用的大发展-从2007年国际石油地质统计学大会谈起.地学前缘,2008,15(1):16-25. WANG J H. Greeting the great development of theories and applications of reservoir modeling. Earth Science Frontiers,2008, 15(1):16-25.
[29] 贾爱林. 中国储层地质模型20年. 石油学报,2011,32(1):181-188. JIA A L. Research achievements on reservoir geological modeling of China in the past two decades. Acta Petrolei Sinica,2011,32(1):181-188.
[30] 戴危艳,李少华,谯嘉翼,等.储层不确定性建模研究进展.岩性油气藏,2015,27(4):127-133. DAI W Y,LI S H,QIAO J Y,et al. Progress of reservoir uncertainty modeling. Lithologic Reservoirs,2015,27(4):127-133.
[31] 张永贵,刘振峰.鄂尔多斯盆地北部上古生界致密砂岩气藏储层建模.石油与天然气地质,2011,32(4):560-567. ZHANG Y G,LIU Z F. Reservoir modeling of tight gas sands in the Upper Paleozoic of the northern Ordos Basin. Oil & gas Geology,2011,32(4):560-567.
[32] 刘振峰,董宁,张永贵,等.致密碎屑岩储层地震反演技术方案及应用.石油地球物理勘探,2012,47(2):298-304. LIU Z F,DONG N,ZHANG Y G,et al. Seismic inversion program for tight clastic reservoir and its application. Oil Geophysical Prospecting,2012,47(2):298-304.
[33] 王家华,陈涛.储层沉积相多点地质统计学建模方法研究.石油化工应用,2013,32(8):57-59. WANG J H,CHEN T. Research on reservoir facies modeling using multiple-point geostatistics. Petrochemical Industry Application,2013,32(8):57-59.
[34] 刘振峰.致密砂岩油气藏地震地质研究关键技术.地球物理学进展,2014,29(1):182-190. LIU Z F. Key techniques of integrated seismic reservoir characterization for tight oil & gas sands. Progress in Geophysics, 2014,29(1):182-190.
[35] 刘振峰.致密砂岩油气藏储层建模技术方案及其应用.地球物理学进展,2014,29(2):815-823. LIU Z F. Reservoir modeling program for tight oil & gas sands and its applications. Progress in Geophysics,2014,29(2):815-823.
[36] 印兴耀,宗兆云,吴国忱. 岩石物理驱动下地震流体识别研究.中国科学:地球科学,2015,45(1):8-21. YIN X Y,ZONG Z Y,WU G C. Research on seismic fluid identification driven by rock physics. Science China:Earth Sciences,2015,45(1):8-21.
[37] 李东安,宁俊瑞,刘振峰.用神经网络和地质统计学综合多元信息进行储层预测. 石油与天然气地质,2010,31(4):493-498. LI D A,NING J R,LIU Z F. Reservoir prediction with integrated information based on artificial neural network technology and geostatistics. Oil & Gas Geology,2010,31(4):493-498.
[38] MA J Q,GENG J H. Cauchy prior distribution-based AVO elastic parameter estimation via weakly nonlinear waveform inversion. Applied Geophysics,2013,10(4):442-452.
[39] 印兴耀,崔维,宗兆云,等. 基于弹性阻抗的储层物性参数预测方法. 地球物理学报,2014,57(12):4132-4140. YIN X Y,CUI W,ZONG Z Y,et al. Petrophysical property inversion of reservoirs based on elastic impedance. Chinese Journal of Geophysics,2014,57(12):4132-4140.
[40] 王保丽,孙瑞莹,印兴耀,等. 基于Metropolis抽样的非线性反演方法. 石油地球物理勘探,2015,50(1):111-117. WANG B L,SUN R Y,YIN X Y,et al. Nonlinear inversion based on Metropolis sampling algorithm. Oil Geophysical Prospecting, 2015,50(1):111-117.
[41] 张广智,潘新朋,孙昌路,等.纵横波联合叠前自适应MCMC反演方法.石油地球物理勘探,2016,51(5):938-946. ZHANG G Z,PAN X P,SUN C L,et al. PP-& PS-wave prestack nonlinear inversion based on adaptive MCMC algorithm. Oil Geophysical Prospecting,2016,51(5):938-946.
[42] TARANTOLA A. Inversion of seismic reflection data in the acoustic approximation. Geophysics,1984,49(8):1259-1266.
[43] ZHANG Y,DUAN L,XIE Y. A stable and practical implementation of least-squares reverse time migration. Geophysics,2015, 80(1):V23-V31.
[44] VALENCIANO A A,BIONDI B L,ROBERT G. Imaging by target-oriented wave-equation inversion:3-D field data results. SEG Technical Program Expanded Abstracts,2008,27:2181-2185.
[45] VERSCHUUR D J,BERKHOUT A J. Target-oriented,leastsquares imaging of blended data. SEG Technical Program Expanded Abstracts,2009,28:2889-2893.
[46] WANG J F,SACCHI M D. Structure constrained least-squares migration. SEG Technical Program Expanded Abstracts,2008, 27:2763-2767.
[47] BACKUS M M,CHEN R. Flat spot exploration. Geophysical Prospecting,1975,23(3):533-577.
[48] BROWN A R. Interpretation of three-Dimension seismic data. AAPG Memoir 42,1991.
[49] 郑晓东. AVO异常检测技术及其应用. 石油地球物理勘探, 1991,26(5):643-649. ZHENG X D. Techniques for AVO anomaly and the application. Oil Geophysical Prospecting,1991,26(5):643-649.
[50] HILTERMAN F J. Seismic amplitude interpretation:2001 distinguished instructor short course. Huston:Society of Exploration Geophysicists and European Association of Geoscientists and Engineers,2001.
[51] OSTRANDER W J. Plane wave reflection coefficients for gas sands at non-normal angles of incidence. Geophysics,1984,49(10):1637-1648.
[52] RUTHERFORD S R,WILLIAMS R H. Amplitude-versus-offset variations in gas sands. Geophysics,1989,54(6):680-688.
[53] CASTAGNA J P,SWAN H W,FOSTER D J. Framework for AVO gradient and intercept interpretation. Geophysics,1998,63(3):948-956.
[54] YIN X Y,YANG P J,ZHANG G Z. A novel prestack AVO inversion and its application. SEG Technical Program Expanded Abstracts,2008,27:2041-2045.
[55] 宗兆云,印兴耀,张峰,等.杨氏模量和泊松比反射系数近似方程及叠前地震反演. 地球物理学报,2012,55(11):3786-3794. ZONG Z Y,YIN X Y,ZHANG F,et al. Reflection coefficient equation and pre-stack seismic inversion with Young's modulus and Poisson ratio. Chinese Journal of Geophysics,2012,55(11):3786-3794.
[56] JI Y Z,WANG S X,YUAN S Y,et al. Frequency-domain AVA inversion using sparse Bayesian learning. SEG Technical Program Expanded Abstracts,2015:3512-3516.
[57] HAN D. Effects of porosity and clay content on acoustic properties of sandstones and unconsolidated sediments. Geophysics, 1986,51(11):2093.
[58] GREENBERG M L,CASTAGNA J P. Shear-wave velocity estimation in porous rocks-theoretical formulation,preliminary verification and applications. Geophysical Prospecting,1992, 40(2):195-209.
[59] YIN X Y,ZONG Z Y,WU G C. Improving seismic interpretation:a high-contrast approximation to the reflection coefficient of a plane longitudinal wave. Petroleum Sciences,2013,10(4):466-476.
[60] ZONG Z Y,YIN X Y,WU G C. Elastic impedance variation with angle inversion for elastic parameters. Journal of Geophysics & Engineering,2012,9(3):247-260.
[61] CONNOLLY P. Elastic impedance. The Leading Edge,1999,18(4):438-438.
[62] INNANEN K A. Inversion of the seismic AVF/AVA signatures of highly attenuative targets. Geophysics,2011,76(1):R1-R14.
[63] WILSON A,CHAPMAN M,LI X Y. Frequency-dependent AVO inversion. SEG Technical Program Expanded Abstracts,2009:341-345.
[64] WANG Y H. Seismic time-frequency spectral decomposition by matching pursuit. Geophysics,2007,72(1):V13-V20.
[65] MAZZOTTI A. Amplitude,phase and frequency versus offset application. Geophysical Prospecting,1991,39(7):863-886.
[66] ZHU X,MCMECHAN G A. Elastic inversion of near-and postcritical reflections using phase variation with angle. Geophysics, 2012,77(4):149.
[67] VIGH D,STARR E W. Comparisons of shot-profile vs. planewave reverse time migration. SEG Technical Program Expanded Abstracts,1949,25(1):3541.
[68] ZHANG Y,ZHANG G Q. Explicit marching method for reversetime migration. SEG Technical Program Expanded Abstracts, 2007,26:2300-2303.
[69] XU S,ZHANG Y,TANG B. 3D common image gathers from reverse time migration. SEG Technical Program Expanded Abstracts,2010,29:3257-3261.
[70] 撒利明,杨午阳,杜启振,等.地震偏移成像技术回顾与展望. 石油地球物理勘探,2015,50(5):1016-1036. SA L M,YANG W Y,DU Q Z,et al. Past,present and future of seismic migration imaging. Oil Geophysical Prospecting,2015, 50(5):1016-1036.
[71] PRATT R G,WORTHINGTON M H. Inverse theory applied to multi-source cross-hole tomography. Part 1:acoustic waveequation method. Geophysical Prospecting,1990,38(3):287-310.
[72] PRATT R G. Inverse theory applied to multi-source cross-hole tomography. Part 2:elastic wave-equation method. Geophysical Prospecting,1990,38(3):311-329.
[73] PRATT G R. Seismic waveform inversion in the frequency domain,Part 1:theory and verification in a physical scale model. Geophysics,1999,64(3):888-901.
[74] GOLOSHUBIN G M,KORNEEV V A. Seismic low-frequency effects from fluid-saturated reservoir. SEG Technical Program Expanded Abstracts,2000:1671-1674.
[75] CASTAGNA J P,SUN S J,SIEGFRIED R W. Instantaneous spectral analysis:detection of low-frequency shadows associated with hydrocarbons. The Leading Edge,2003,22(2):120-127.
[76] KORNEEV V A,GOLOSHUBIN G M,DALEY T M,et al. Seismic low-frequency effects in monitoring fluid-saturated reservoirs. Geophysics,2004,69(2):522-532.
[77] 卢明辉,巴晶,杨慧珠.含粘滞流体孔隙介质中的弹性波.工程力学,2009,26(5):36-40. LU M H,BA J,YANG H Z. Propagation of elastic waves in a viscous fluid-saturated porous solid. Engineering Mechanics, 2009,26(5):36-40.
[78] SIDLER R,CARCIONE J M. Wave reflection at an elastic transversely isotropic ocean bottom. Geophysics,2007,72(72):SM139-SM146.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

油气地震地质模型述评

Review on oil and gas seismogeology models

PDF (PC)

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 1

Metrics

本文评价

推荐阅读 10