雷11块油藏特征研究
摘要
雷11块构造上处于辽河盆地西部凹陷西斜坡北段,与高升油田高二三区南端高18块相邻,开采层系为沙四段杜家台油层和沙三段莲花油层。随着雷11块莲花油层开采规模的逐步增大,暴露出了该油藏构造破碎、岩性变化大、油水关系复杂等问题,而这些问题的存在直接影响了油藏下一步开发调整的进程。
通过该论文的研究,对雷11块的储层特征、构造特征、沉积特征和以及低阻油层的形成原因等有了重要认识,搞清雷11块莲花油层的油藏内幕,找出了形成本地区低电阻油层的形成原因,取得了大量动静态成果,对该块的油层改造、注采井网调整以及下一步产能部署具有重要的指导作用。
雷11块油藏特征复杂,通过本论文的研究,以现有的三维地震、测井、试油试采及油田动态监测等资料为基础,综合运用地震学、地质学、测井学以及油藏工程学等理论,以落实油藏构造和储层特征为主线,搞清该区块油藏特征、油水层分布、产能分布等情况。对不断开展低阻油藏精细描述,深化细化油藏地质认识以及保持雷家地区产量稳定具有重要意义。
The conformation of Lei11 Block lies the north segment of west incline of west hollow of Liaohe Basin. Link with the south of Gao18 Block of Gao 2 3 Area of Gaosheng Oil Field. Exploitation layers are the Dujiatai reseviors of Sha 4 segment and the Lianhua reserviors of Sha 3 segment. Along with the augmentation of exploitation scale in Lianhua Layers of Lei11 Block. Exposes the questions as reservoir conformation is broken up, lithology change is large and the relation between oil and water is complicated. And the questions will influence the next exploitation and adjustment course.
From the paper, we can have some important results about the reservoir feature, conformation feature, sediment feature and the forming cause of low resistance layers in Lei18 Block. We have known the reservoir situation of Lianhua layer in Lei11 Block and have found the forming cause of low resistance layers in this area. And get a lot of static behavior results. And will have some important direction to the layer reconstruction, the adjustment of the nets between affusion wells and oil wells and the next yield plan.
The reservoir feature in Lei11 block is complicated. From the paper, basing on the present dates from 3-D seismics, well-logging, well-testing and oil-field change surveillance. We synthetically use the theory of seimics, geology, logging, reservoir engineering. As the primary goal with finding out reservoir conformation and layer feature. We know carefully the things about reservoir feature, oil and water layers distribution and yield distribution. This will have important part for careful description of low resistance reservoir, drastically knowing the reservoir situation and keeping the yield of Leijia area steady.
通过该论文的研究,对雷11块的储层特征、构造特征、沉积特征和以及低阻油层的形成原因等有了重要认识,搞清雷11块莲花油层的油藏内幕,找出了形成本地区低电阻油层的形成原因,取得了大量动静态成果,对该块的油层改造、注采井网调整以及下一步产能部署具有重要的指导作用。
雷11块油藏特征复杂,通过本论文的研究,以现有的三维地震、测井、试油试采及油田动态监测等资料为基础,综合运用地震学、地质学、测井学以及油藏工程学等理论,以落实油藏构造和储层特征为主线,搞清该区块油藏特征、油水层分布、产能分布等情况。对不断开展低阻油藏精细描述,深化细化油藏地质认识以及保持雷家地区产量稳定具有重要意义。
The conformation of Lei11 Block lies the north segment of west incline of west hollow of Liaohe Basin. Link with the south of Gao18 Block of Gao 2 3 Area of Gaosheng Oil Field. Exploitation layers are the Dujiatai reseviors of Sha 4 segment and the Lianhua reserviors of Sha 3 segment. Along with the augmentation of exploitation scale in Lianhua Layers of Lei11 Block. Exposes the questions as reservoir conformation is broken up, lithology change is large and the relation between oil and water is complicated. And the questions will influence the next exploitation and adjustment course.
From the paper, we can have some important results about the reservoir feature, conformation feature, sediment feature and the forming cause of low resistance layers in Lei18 Block. We have known the reservoir situation of Lianhua layer in Lei11 Block and have found the forming cause of low resistance layers in this area. And get a lot of static behavior results. And will have some important direction to the layer reconstruction, the adjustment of the nets between affusion wells and oil wells and the next yield plan.
The reservoir feature in Lei11 block is complicated. From the paper, basing on the present dates from 3-D seismics, well-logging, well-testing and oil-field change surveillance. We synthetically use the theory of seimics, geology, logging, reservoir engineering. As the primary goal with finding out reservoir conformation and layer feature. We know carefully the things about reservoir feature, oil and water layers distribution and yield distribution. This will have important part for careful description of low resistance reservoir, drastically knowing the reservoir situation and keeping the yield of Leijia area steady.
引文
[1] 陆基孟.地震勘探原理.石油大学出版社,1993
[2] 谢明道.垂直地震剖面法应用技术.石油工业出版社,1991
[3] 聂勋碧,钱宗良.地震勘探原理和野外工作方法.地质出版社,1990
[4] 黄德济,贺振华,包吉山.地震勘探资料数值处理.地质出版社,1990
[5] 李正文,赵志超.地震勘探资料解释.地质出版社,1988
[6] 车卓吾主编.复杂断块油田勘探开发中新技术的应用.石油工业出版社,1994
[7] J.D.罗伯逊等著,范伟粹,韩一伟译.地震勘探在油气田开发中的应用.石油工业出版社,1992
[8] O.R.伯格,D.G.伍尔弗顿编,袁秉衡等译.地震地层学.石油工业出版社,1992
[9] 刘雯林.油气田开发地震技术.石油工业出版社,1996
[10] 高章伟主编.石油地震勘探技术交流会论文集.石油工业出版社,1993
[11] 吴崇筠,薛叔浩.中国含油气盆地沉积学.石油工业出版社,1992
[12] O.塞拉著,肖义越译.测井资料地质解释.石油工业出版社,1992
[13] 马玉龙,牛仲仁主编.辽河油区勘探与开发.石油工业出版社,1997
[14] 金强,林承焰,郭北尧等.油藏预测.石油工业出版社,1996
[15] 裘亦楠,薛叔浩.油气储层评价技术.石油工业出版社,1994
[16] 中国石油学会地质委员会编.碎屑岩沉积相研究.石油工业出版社,1988
[17] 余守德等编著.复杂断块砂岩油藏开发模式.石油工业出版社,1998
[18] 袁祖贵等.低电阻率油气层评价技术研究.特种油气藏,2003
[19] 唐清山等.高升探区下第三系沉积体系研究.特种油气藏,2003
[20] P.O.罗海尔等编,王正鉴等译.世界大油气田油藏研究实例. 石油工业出版社,1993
[21] F.W.科尔,栾庆江等译.油藏工程方法. 石油工业出版社,1981
[22] J.M.坎贝谱,陈月明译.油气藏评价. 石油工业出版社,1982
[23] H.C.斯立德,徐怀大译.实用油藏工程学方法. 石油工业出版社,1982
[24] 刘泽容等编著.油藏描述原理与方法技术.石油工业出版社,1995
[25] 常子恒等编著.石油勘探开发技术.石油工业出版社,2001
[26] 马正.油气测井地质学.中国地质大学出版社,1994
[27] 刘泽容等.油藏描述原理与方法技术.石油工业出版社, 1993
[28] 张一伟等.陆相油藏描述.石油工业出版社,1997
[29] 吴元燕等.油气储层地质.石油工业出版社,1997
[30] 陈立官.油气田地下地质学.地质出版社,1982
[31] 李应暹,卢宗盛等.辽河盆地陆相遗迹化石与沉积环境.石油工业出版社,1997
[32] 李茂林等.油气田开发地质基础.石油工业出版社,1991
[33] 张金亮等.早期油藏地质研究及油藏表征.西北大学出版社,1993
[34] 陈荣书等.石油及天然气地质学.中国地质大学出版社,1994
[35] 李思田等.含能源盆地沉积体系—中国内陆和近海主要沉积体系类型的典型分析.中国地质大学出版社,1996
[36] 张博全,关振良等.开发早期油藏描述.中国地质大学出版社,1995
[37] Benvenuti Marco. Facies analysis and tectonic significance of lacustrine fan-deltaic successions in the Pliocene–Pleistocene Mugello Basin, Central Italy. Sedimentary Geology 2003,157(3-4) :197-234.
[38] Galloway W E.. Genetic stratigraphic sequence in basin analysis 1: architecture and genesis of flooding surface bounded depositional units. AAPG Bulletion,1989, 73(2):125-142.
[39] Leeder, M. R. Sedimentology and Sedimentary Basins: from Turbulence to Tectonics. Blackwell Science Ltd., Malden. 2001, pp. 383~390.
[40] Harold G.R., Marcus R.. Turbidite systems in deep water basin margins classified by grain size and feeder system. AAPG Bulletin,1994,78(5):792-822.
[41] Nava Sanchez Enrique, Cruz-Orozco Rodolfo, Gorsline Donn S.. Morphology and sedimentology of two contemporary fan deltas on the southeastern Baja California Peninsula, Mexico. Sedimentary Geology 1995,98(1):45-61.
[42] Shanley K.W.,McCabe P.J.. Perspectives on the sequence stratigraphy of continental strata. AAPG Bulletin, 1994,78(4):544-56
[43] Van Der Werff, W. Johnson. High resolution stratigraphic analysis of a turbidite system, Tanqua Karoo Basin, South Africa .Marine and Petroleum Geology ,2003,20(1):45-69.
[2] 谢明道.垂直地震剖面法应用技术.石油工业出版社,1991
[3] 聂勋碧,钱宗良.地震勘探原理和野外工作方法.地质出版社,1990
[4] 黄德济,贺振华,包吉山.地震勘探资料数值处理.地质出版社,1990
[5] 李正文,赵志超.地震勘探资料解释.地质出版社,1988
[6] 车卓吾主编.复杂断块油田勘探开发中新技术的应用.石油工业出版社,1994
[7] J.D.罗伯逊等著,范伟粹,韩一伟译.地震勘探在油气田开发中的应用.石油工业出版社,1992
[8] O.R.伯格,D.G.伍尔弗顿编,袁秉衡等译.地震地层学.石油工业出版社,1992
[9] 刘雯林.油气田开发地震技术.石油工业出版社,1996
[10] 高章伟主编.石油地震勘探技术交流会论文集.石油工业出版社,1993
[11] 吴崇筠,薛叔浩.中国含油气盆地沉积学.石油工业出版社,1992
[12] O.塞拉著,肖义越译.测井资料地质解释.石油工业出版社,1992
[13] 马玉龙,牛仲仁主编.辽河油区勘探与开发.石油工业出版社,1997
[14] 金强,林承焰,郭北尧等.油藏预测.石油工业出版社,1996
[15] 裘亦楠,薛叔浩.油气储层评价技术.石油工业出版社,1994
[16] 中国石油学会地质委员会编.碎屑岩沉积相研究.石油工业出版社,1988
[17] 余守德等编著.复杂断块砂岩油藏开发模式.石油工业出版社,1998
[18] 袁祖贵等.低电阻率油气层评价技术研究.特种油气藏,2003
[19] 唐清山等.高升探区下第三系沉积体系研究.特种油气藏,2003
[20] P.O.罗海尔等编,王正鉴等译.世界大油气田油藏研究实例. 石油工业出版社,1993
[21] F.W.科尔,栾庆江等译.油藏工程方法. 石油工业出版社,1981
[22] J.M.坎贝谱,陈月明译.油气藏评价. 石油工业出版社,1982
[23] H.C.斯立德,徐怀大译.实用油藏工程学方法. 石油工业出版社,1982
[24] 刘泽容等编著.油藏描述原理与方法技术.石油工业出版社,1995
[25] 常子恒等编著.石油勘探开发技术.石油工业出版社,2001
[26] 马正.油气测井地质学.中国地质大学出版社,1994
[27] 刘泽容等.油藏描述原理与方法技术.石油工业出版社, 1993
[28] 张一伟等.陆相油藏描述.石油工业出版社,1997
[29] 吴元燕等.油气储层地质.石油工业出版社,1997
[30] 陈立官.油气田地下地质学.地质出版社,1982
[31] 李应暹,卢宗盛等.辽河盆地陆相遗迹化石与沉积环境.石油工业出版社,1997
[32] 李茂林等.油气田开发地质基础.石油工业出版社,1991
[33] 张金亮等.早期油藏地质研究及油藏表征.西北大学出版社,1993
[34] 陈荣书等.石油及天然气地质学.中国地质大学出版社,1994
[35] 李思田等.含能源盆地沉积体系—中国内陆和近海主要沉积体系类型的典型分析.中国地质大学出版社,1996
[36] 张博全,关振良等.开发早期油藏描述.中国地质大学出版社,1995
[37] Benvenuti Marco. Facies analysis and tectonic significance of lacustrine fan-deltaic successions in the Pliocene–Pleistocene Mugello Basin, Central Italy. Sedimentary Geology 2003,157(3-4) :197-234.
[38] Galloway W E.. Genetic stratigraphic sequence in basin analysis 1: architecture and genesis of flooding surface bounded depositional units. AAPG Bulletion,1989, 73(2):125-142.
[39] Leeder, M. R. Sedimentology and Sedimentary Basins: from Turbulence to Tectonics. Blackwell Science Ltd., Malden. 2001, pp. 383~390.
[40] Harold G.R., Marcus R.. Turbidite systems in deep water basin margins classified by grain size and feeder system. AAPG Bulletin,1994,78(5):792-822.
[41] Nava Sanchez Enrique, Cruz-Orozco Rodolfo, Gorsline Donn S.. Morphology and sedimentology of two contemporary fan deltas on the southeastern Baja California Peninsula, Mexico. Sedimentary Geology 1995,98(1):45-61.
[42] Shanley K.W.,McCabe P.J.. Perspectives on the sequence stratigraphy of continental strata. AAPG Bulletin, 1994,78(4):544-56
[43] Van Der Werff, W. Johnson. High resolution stratigraphic analysis of a turbidite system, Tanqua Karoo Basin, South Africa .Marine and Petroleum Geology ,2003,20(1):45-69.
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