[1] LARUE D K,HOVADIK J.Connectivity of channelized reservoirs:a modelling approach[J].Petroleum Geoscience,2006,12(4):291-308.
[2] PARDO-IGU ' ZQUIZA E,DOWD P A.CONNEC3D:a computer program for connectivity analysis of 3D random set models[J].Computers & Geosciences,2003,29(6):775-785.
[3] ALLEN J R L.Studies in fluviatile sedimentation:an exploratory quantitative model for the architecture of avulsion-controlled alluvial suites[J].Sedimentary Geology,1978,21(2):129-147.
[4] ALLARD D,GROUP H.On the connectivity of two random set models:the truncated Gaussian and the Boolean[M]//SOARES A.Geostatistics Tróia '92.Dordrecht:Springer,1993:467-478.
[5] FULLJAMES J R,ZIJERVELD L J J,FRANSSEN R C M W.Fault seal processes:systematic analysis of fault seals over geological and production time scales[J].Norwegian Petroleum Society Special Publications,1997,7:51-59.
[6] KNIPE R J.Juxtaposition and seal diagrams to help analyze fault seals in hydrocarbon reservoirs[J].AAPG Bulletin,1997,81(2):187-195.
[7] AINSWORTH R B.Sequence stratigraphic-based analysis of reservoir connectivity:influence of depositional architecture:a case study from a marginal marine depositional setting[J].Petroleum Geoscience,2005,11(3):257-276.
[8] LARUE D K.Outcrop and waterflood simulation modeling of the 100-foot channel complex,texas,and the ainsa ii channel complex,spain:analogs to multistory and multilateral channelized slope reservoirs[M]//GRAMMER G M,MITCH HARRIS P M,EBERLI G P.Integration of Outcrop and Modern Analogs in Reservoir Modeling.Tulsa:AAPG,2004,80:337-364.
[9] LARUE D K,FRIEDMANN F.Stratigraphic uncertainty in field development studies:a conceptual modeling approach[J].The Leading Edge,2001,20(1):28-33.
[10] LARUE D K,FRIEDMANN F.The controversy concerning stratigraphic architecture of channelized reservoirs and recovery by waterflooding[J].Petroleum Geoscience,2005,11(2):131-146.
[11] LARUE D K,LEGARRE H.Flow units,connectivity,and reservoir characterization in a wave-dominated deltaic reservoir:Meren reservoir,Nigeria[J].AAPG Bulletin,2004,88(3):303-324.
[12] PRANTER M J,SOMMER N K.Static connectivity of fluvial sandstones in a lower coastal-plain setting:an example from the Upper Cretaceous lower Williams Fork Formation,Piceance Basin,Colorado[J].AAPG Bulletin,2011,95(6):899-923.
[13] FUNK J E,SLATT R M,PYLES D R.Quantification of static connectivity between deep-water channels and stratigraphically adjacent architectural elements using outcrop analogs[J].AAPG Bulletin,2012,96(2):277-300.
[14] STUART J Y,MOUNTNEY N P,MCCAFFREY W D,et al.Prediction of channel connectivity and fluvial style in the flood-basin successions of the Upper Permian Rangal Coal Measures (Queensland)[J].AAPG Bulletin,2014,98(2):191-212.
[15] DONSELAAR M E,OVEREEM I.Connectivity of fluvial point-bar deposits:an example from the Miocene Huesca fluvial fan,Ebro Basin,Spain[J].AAPG Bulletin,2008,92(9):1109-1129.
[16] LECHNER A M,HARRIS R M B,DOERR V,et al.From static connectivity modelling to scenario-based planning at local and regional scales[J].Journal for Nature Conservation,2015,28:78-88.
[17] LABOURDETTE R.Stratigraphy and static connectivity of braided fluvial deposits of the Lower Escanilla Formation,south central Pyrenees,Spain[J].AAPG Bulletin,2011,95(4):585-617.
[18] 赵辉,康志江,张允,等.表征井间地层参数及油水动态的连通性计算方法[J].石油学报,2014,35(5):922-927.
ZHAO Hui,KANG Zhijiang,ZHANG Yun,et al.An interwell connectivity numerical method for geological parameter characterization and oil-water two-phase dynamic prediction[J].Acta Petrolei Sinica,2014,35(5):922-927.
[19] 雷裕红,罗晓容,张立宽,等.东营凹陷南斜坡东段沙河街组砂岩输导层连通性量化表征[J].石油学报,2013,34(4):692-700.
LEI Yuhong,LUO Xiaorong,ZHANG Likuan,et al.Quantitative characterization of Shahejie Formation sandstone carrier connectivity of the eastern part of the south slope in Dongying sag[J].Acta Petrolei Sinica,2013,34(4):692-700.
[20] 赵靖舟,曹青,白玉彬,等.油气藏形成与分布:从连续到不连续——兼论油气藏概念及分类[J].石油学报, 2016,37(2):145-159.
ZHAO Jingzhou,CAO Qing,BAI Yubin,et al.Petroleum accumulation from continuous to discontinuous:concept,classification and distribution[J].Acta Petrolei Sinica,2016,37(2):145-159.
[21] 杜庆龙.长期注水开发砂岩油田储层渗透率变化规律及微观机理[J].石油学报,2016,37(9):1159-1164.
DU Qinglong.Variation law and microscopic mechanism of permeability in sandstone reservoir during long-term water flooding development[J].Acta Petrolei Sinica,2016,37(9):1159-1164.
[22] PAREKH B,KABIR C S.A case study of improved understanding of reservoir connectivity in an evolving waterflood with surveillance data[J].Journal of Petroleum Science and Engineering,2013,102:1-9.
[23] 赵辉,谢鹏飞,曹琳,等.基于井间连通性的油藏开发生产优化方法[J].石油学报,2017,38(5):555-561.
ZHAO Hui,XIE Pengfei,CAO Lin,et al.Reservoir production optimization method based on inter-well connectivity[J].Acta Petrolei Sinica,2017,38(5):555-561.
[24] KING P R.The use of renormalization for calculating effective permeability[J].Transport in Porous Media,1989,4(1):37-58.
[25] KING P R.The connectivity and conductivity of overlapping sand bodies[M]//BULLER A T,BERG E,HJELMELAND O,et al.North Sea Oil and Gas Reservoirs -Ⅱ.Dordrecht:Springer,1990:353-362.
[26] 罗晓容,雷裕红,张立宽,等.油气运移输导层研究及量化表征方法[J].石油学报,2012,33(3):428-436.
LUO Xiaorong,LEI Yuhong,ZHANG Likuan,et al.Characterization of carrier formation for hydrocarbon migration:concepts and approaches[J].Acta Petrolei Sinica,2012,33(3):428-436.
[27] 秦武英.萨尔图油田南二区东部后续水驱周期注采方法研究[D].吉林:吉林大学,2012.
QIN Wuying.Technology of subsequent water flooding cyclic studying in Naner area Saertu oil field[D].Jilin:Jilin University,2012.
[28] 刘性全.三角洲前缘相储层物性特征及调整方法研究——以大庆萨尔图油田高台子油层为例[D].杭州:浙江大学,2007.
LIU Xingquan.Study on physical characteristics and adjustment methods in delta front facies reservoirs:study on deposit characteristics and develop adjustment methods in Gaotaizi reservoirs in Daqing Saertu oilfield[D].Hangzhou:Zhejiang University,2007.
[29] 赵凤全.南二西区块萨尔图油层地震储层预测[D].大庆:东北石油大学,2016.
ZHAO Fengquan.Seismic reservoir prediction of Saertu Formation of Nanerxi[D].Daqing:Northeast Petroleum University,2016.
[30] 牛博,高兴军,赵应成,等.古辫状河心滩坝内部构型表征与建模——以大庆油田萨中密井网区为例[J].石油学报,2015,36(1):89-100.
NIU Bo,GAO Xingjun,ZHAO Yingcheng,et al.Architecture characterization and modeling of channel bar in paleo-braided river:a case study of dense well pattern area of Sazhong in Daqing oilfield[J].Acta Petrolei Sinica,2015,36(1):89-100.
[31] DEUTSCH C V,JOURNEL N G.GSLIB:geostatistical software library and user's guide[M].New York:Oxford University Press, 1992.
[32] STREBELLE S,PAYRAZYAN K,CAERS J.Modeling of a deepwater Turbidite reservoir conditional to seismic data using principal component analysis and multiple -point Geostatistics[J].SPE Journal,2003,8(3):227-235.
[33] HOVADIK J M,LARUE D K.Static characterizations of reservoirs:refining the concepts of connectivity and continuity[J].Petroleum Geoscience,2007,13(3):195-211.
[34] 张云峰,刘宗堡,赵容生,等.三角洲平原亚相储层砂体静态连通性定量表征——以松辽盆地肇州油田扶余油层为例[J].中国矿业大学学报,2017,46(6):1188-1196.
ZHANG Yunfeng,LIU Zongbao,ZHAO Rongsheng,et al.Quantitative characterization of delta plainsubfacies reservoir sandbody static connectivity:taking Fuyu oil layer of Zhaozhou oil field in Songliao Basin as an example[J].Journal of China University of Mining & Technology,2017,46(6):1188-1196.
[35] MCCAMMON R B.Target intersection probabilities for parallel-line and continuous-grid types of search[J].Journal of the International Association for Mathematical Geology,1977,9(4):369-382.
[36] SØMME T O,HELLAND-HANSEN W,MARTINSEN O J,et al.Relationships between morphological and sedimentological parameters in source-to-sink systems:a basis for predicting semi-quantitative characteristics in subsurface systems[J].Basin Research,2009,21(4):361-387.
[37] COLOMBERA L,MOUNTNEY N P,MCCAFFREY W D,et al.Models for guiding and ranking well-to-well correlations of channel bodies in fluvial reservoirs[J].AAPG Bulletin,2014,98(10):1943-1965. |