布木格油田扶扬油层不同驱替方式研究
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摘要
低渗透油田存在储层物性差,非均质性强、平均孔喉半径小、比表面大、毛管压力高、渗透率低以及开发难度较大等问题,因此在进行低渗透油田开发前,必须对油层的地质特征和油层物性等有充分的认识,对开发方案进行反复论证,采取相应的增产增注措施,以进一步提高低渗透油田的动用程度。本文针对以上情况,结合布木格油气田的地质特征,通过实验研究的方法,测定了布木格油田低渗岩心拟启动压力、低渗透岩心的油水相对渗透率、低渗透岩心的气油相对渗透率,研究了不同气体类型(天然气、二氧化碳、氮气),不同气水段塞比对水气交替注入提高布木格油气田采收率的影响。
最后提出了利用气驱(特别是二氧化碳)对提高该油田的开采效果具有很好的作用,这些研究的开展对提高布木格油气田的开发效果具有重要的指导意义。
The existence of low permeability, bad reservoir property, strong inhomogercity, small pore throat by specific surface and the high capillary forces leads to the great difficulties in developing a low permeable field. The geological property of the formation and the characteristic of the reservoir must be known precisely before exploit, so that the corresponding stimulation method could be applied to the field, and thus to enhance the recovery of the reservoir, concerned the condition above and combined with the geological properties of the Bumuge field, and by the means of experiments, the pseudo-starting pressure, the relative permeability of water and oil, the relative permeability of oil and gas was measured, and the influence of gas type (natural gas, CO2, N2) and the slug ratio of oil and gas on the recovery of Bumuge field under alternation injecting of water and gas was studied.
The great effect of gas drove (especially CO2) on the enhance reqovery was concluded. And all these researches have a grand guiding influence on the enhancement of the development result in Bumuge field.
最后提出了利用气驱(特别是二氧化碳)对提高该油田的开采效果具有很好的作用,这些研究的开展对提高布木格油气田的开发效果具有重要的指导意义。
The existence of low permeability, bad reservoir property, strong inhomogercity, small pore throat by specific surface and the high capillary forces leads to the great difficulties in developing a low permeable field. The geological property of the formation and the characteristic of the reservoir must be known precisely before exploit, so that the corresponding stimulation method could be applied to the field, and thus to enhance the recovery of the reservoir, concerned the condition above and combined with the geological properties of the Bumuge field, and by the means of experiments, the pseudo-starting pressure, the relative permeability of water and oil, the relative permeability of oil and gas was measured, and the influence of gas type (natural gas, CO2, N2) and the slug ratio of oil and gas on the recovery of Bumuge field under alternation injecting of water and gas was studied.
The great effect of gas drove (especially CO2) on the enhance reqovery was concluded. And all these researches have a grand guiding influence on the enhancement of the development result in Bumuge field.
引文
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[6] 郑俊德,姜洪福,冯效树.萨中地区合理注采比研究.油气地质与采收率,2001,NO.2
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[10] 巢华庆等.对高含水后期“稳油控水”的认识和做法.大庆石油地质与开发,1993年第2期
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[15] 王德民,张景存等编译.国外三次采有技术.上海交通大学出版社,1992
[16] [美H.K.范.波伦等.提高原油采收率的原理.北京:石油工业出版社,1988
[17] 宋付权,刘慈群,刘雄明.低渗透油藏径向定常渗流特征.低渗透油气田,1998年3月。
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[19] 马建国.油气藏增产新技术.北京:石油工业出版社,1998
[20] 王鸿勋,张琪等.采油工艺原理.北京:石油工业出版社,1989
[21] 刘丁曾.多油层砂岩油田开发.北京:石油工业出版社,1986
[22] 张绍槐,罗平亚等.保护储集层技术.北京:石油工业出版社,1993
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[24] 陈元千.油气藏的物质平衡方程式及其应用.北京:石油工业出版社,1979
[25] 金毓荪.油田分层开采.北京:石油工业出版社,1985
[26] 郭呈柱.采油工程方案编制方法.北京:石油工业出版社,1995
[27] 贾振岐等.油田开发设计与分析方法.哈尔滨:哈尔滨工业大学出版社,1994
[28] 葛家理主编.油气层渗流力学.北京:石油工业出版社,1982
[29] [英]J.S.阿切尔等著.周成勋等译.石油工程原理与实践.北京:石油工业出版社,1992
[30] Brown K. E. and Lea J. F., Nadal Systems Analysis of Oil and Gas Wells, JPT. Oct. 1985
[31] 冯文光,葛家理.单一介质、双重介质中非定常非达西低速渗流问题.石油勘探与开发,1985年第1期
[32] 黎文清,李士安等.油气田开发地质基础.北京:石油工业出版社,1993
[33] 程时清等.低速非达西渗流的流量动态规律研究.江汉石油学院学报,1997年第19卷第1期
[34] [苏]日尔托夫著,郭美云译.油田开发.北京:石油工业出版社,1992
[35] 张景存.大庆油田三次采油实验研究.北京:石油工业出版社,1995(9)
[36] 李凡华,刘慈群.含启动压力梯度的不定常渗流的压力动态分析.油气井测试,1997(6)
[37] 赵寿增,微生物采油技术,油气采收率技术,1996.3
[38] 杨普华,提高采收率研究的现状及近期的发展方向,油气采收率技术,1999.7
[39] 岳登台,综述老油田改善开发效果及提高采收率技术,石油学报,1998.7
[40] 谭文彬等,油田注水开发的决策部署研究,石油工业出版社
[41] Polubarinova-Kochina,P. Ya.: Thoeory of Ground Water Movement, Translated from the Russian by J. M. R. DeWeist, princeton Unicersity Press, Princeton, N. J. (1962)549
[42] van Everdmgen, A. F. and Hurst, W.: "The Application of the Laplace Transformation to Flow Problems in Reservoirs", Trans., AIME(1949)186, 305-324
[43] Odeh, A. S. and Nabor, G. W.: "The Effet Production History on Determination of Formation Characteristics From Flow Tests", J. Pet. Tech.
[44] Iraj Ershaghi. A method of extrpolation of cut vs recovery curves. JPT(FEB. 1978)
[45] Wang Demin, Cheng Jiecheng, Summary of ASP Pilot m Daqmg Oil FIELD, SPE 57288
[46] R. G. Keck, SPE 21860 The Effects of Viscoelasticity on Friction Pressure of Fracturing Fluids, ARCO Oil Gas Co.
[47] Actually fractured reservoirs, SPEJ, Dec. 1976, 317-326
[48] Bennett C O, et al., Performance of finite-conductivity vertically fractured wells in sigle-layer; reservoir.SPEFEE,Aug, 1986,399-412
[49] Cinco-Ley H, et al., Transienntpressure analysis for fractured wells. JPT, Sept. 1981,1749-1766
[50] Coast, K.H.,Anequation of state compositional model, SPEJ, Oct. 1980, 363-376
[2] 刘丁曾,王启民,李伯虎.大庆多层砂岩油田开发.石油工业出版社
[3] 王俊魁,万军,高树棠.油气藏工程方法研究与应用.石油工业出版社
[4] 陈涛平,胡靖邦.石油工程.石油工业出版社
[5] 宋付权,刘慈群.含启动压力梯度油藏的两相渗流分析.石油大学学报,1999年第23卷第3期
[6] 郑俊德,姜洪福,冯效树.萨中地区合理注采比研究.油气地质与采收率,2001,NO.2
[7] 邓英尔,刘慈群.具有启动压力梯度的油水两相渗流理论与开发指标计算方法.石油勘探与开发,1998年第25卷第6期。
[8] 冯文光.非达西低速渗流的研究现状与展望.石油勘探与开发,1986年第4期
[9] 黄伏生,赵永胜等.高含水后期加密调整井开发指标预测方法研究.大庆石油地质与开发
[10] 巢华庆等.对高含水后期“稳油控水”的认识和做法.大庆石油地质与开发,1993年第2期
[11] 翟云芳,闰宝珍.渗流力学.北京:石油工业出版社,1999
[12] 周学民等.高含水后期油田产液量变化趋势研究.石油勘探与开发,1994年第1期,石油工业出版社
[13] 张继芬,赵明国,刘中春.提高采收率基础.石油工业出版社,1997
[14] 吴迪祥,张继芬,李虎君等.油层物理.北京:石油工业出版社,1994
[15] 王德民,张景存等编译.国外三次采有技术.上海交通大学出版社,1992
[16] [美H.K.范.波伦等.提高原油采收率的原理.北京:石油工业出版社,1988
[17] 宋付权,刘慈群,刘雄明.低渗透油藏径向定常渗流特征.低渗透油气田,1998年3月。
[18] 梅博文等.石油地质文集.(油气).地质出版社,1982
[19] 马建国.油气藏增产新技术.北京:石油工业出版社,1998
[20] 王鸿勋,张琪等.采油工艺原理.北京:石油工业出版社,1989
[21] 刘丁曾.多油层砂岩油田开发.北京:石油工业出版社,1986
[22] 张绍槐,罗平亚等.保护储集层技术.北京:石油工业出版社,1993
[23] 郎兆新.油藏工程基础.东营:石油大学出版社,1991
[24] 陈元千.油气藏的物质平衡方程式及其应用.北京:石油工业出版社,1979
[25] 金毓荪.油田分层开采.北京:石油工业出版社,1985
[26] 郭呈柱.采油工程方案编制方法.北京:石油工业出版社,1995
[27] 贾振岐等.油田开发设计与分析方法.哈尔滨:哈尔滨工业大学出版社,1994
[28] 葛家理主编.油气层渗流力学.北京:石油工业出版社,1982
[29] [英]J.S.阿切尔等著.周成勋等译.石油工程原理与实践.北京:石油工业出版社,1992
[30] Brown K. E. and Lea J. F., Nadal Systems Analysis of Oil and Gas Wells, JPT. Oct. 1985
[31] 冯文光,葛家理.单一介质、双重介质中非定常非达西低速渗流问题.石油勘探与开发,1985年第1期
[32] 黎文清,李士安等.油气田开发地质基础.北京:石油工业出版社,1993
[33] 程时清等.低速非达西渗流的流量动态规律研究.江汉石油学院学报,1997年第19卷第1期
[34] [苏]日尔托夫著,郭美云译.油田开发.北京:石油工业出版社,1992
[35] 张景存.大庆油田三次采油实验研究.北京:石油工业出版社,1995(9)
[36] 李凡华,刘慈群.含启动压力梯度的不定常渗流的压力动态分析.油气井测试,1997(6)
[37] 赵寿增,微生物采油技术,油气采收率技术,1996.3
[38] 杨普华,提高采收率研究的现状及近期的发展方向,油气采收率技术,1999.7
[39] 岳登台,综述老油田改善开发效果及提高采收率技术,石油学报,1998.7
[40] 谭文彬等,油田注水开发的决策部署研究,石油工业出版社
[41] Polubarinova-Kochina,P. Ya.: Thoeory of Ground Water Movement, Translated from the Russian by J. M. R. DeWeist, princeton Unicersity Press, Princeton, N. J. (1962)549
[42] van Everdmgen, A. F. and Hurst, W.: "The Application of the Laplace Transformation to Flow Problems in Reservoirs", Trans., AIME(1949)186, 305-324
[43] Odeh, A. S. and Nabor, G. W.: "The Effet Production History on Determination of Formation Characteristics From Flow Tests", J. Pet. Tech.
[44] Iraj Ershaghi. A method of extrpolation of cut vs recovery curves. JPT(FEB. 1978)
[45] Wang Demin, Cheng Jiecheng, Summary of ASP Pilot m Daqmg Oil FIELD, SPE 57288
[46] R. G. Keck, SPE 21860 The Effects of Viscoelasticity on Friction Pressure of Fracturing Fluids, ARCO Oil Gas Co.
[47] Actually fractured reservoirs, SPEJ, Dec. 1976, 317-326
[48] Bennett C O, et al., Performance of finite-conductivity vertically fractured wells in sigle-layer; reservoir.SPEFEE,Aug, 1986,399-412
[49] Cinco-Ley H, et al., Transienntpressure analysis for fractured wells. JPT, Sept. 1981,1749-1766
[50] Coast, K.H.,Anequation of state compositional model, SPEJ, Oct. 1980, 363-376
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