收稿日期: 2012-01-12
修回日期: 2012-08-05
网络出版日期: 2012-12-10
基金资助
教育部高等学校博士学科点专项科研基金课题(编号:20105121110006);油气藏地质及开发工程国家重点实验室应用基础研究课题“裂缝性水驱气藏提高采收率机理及方法研究”(编号: PLN04ZL001)联合资助.
Studies on Water Invasion Mechanism of Fractured-watered Gas Reservoir
Received date: 2012-01-12
Revised date: 2012-08-05
Online published: 2012-12-10
在裂缝—孔隙型有水气藏开采过程中,边水或底水容易沿裂缝通道向生产井窜流,形成气水两相流,增加渗流阻力,封闭并分隔部分气区,降低井产量和气藏采收率,对采气危害很大。针对裂缝型产水气藏的储集层特征,建立了水驱气渗流的物理实验模型,通过实验,从微观机理上揭示了裂缝型气藏发生水侵时天然气主要以绕流封闭气、卡断封闭气和水锁封闭气的形式存在。气藏水侵在宏观上主要表现为低渗透岩块水侵、气藏水侵和关井复压“反向水侵”,其结果是水对气区进行封闭、封隔和水淹,堵塞部分气区的渗流通道,使可动气变成“死气”。结合气藏水侵机理研究了K6井裂缝系统的水侵规律,为该气藏开发调整提供了有效的依据。
樊怀才,钟兵,李晓平,刘义成,杨洪志,冯曦,张袁辉 . 裂缝型产水气藏水侵机理研究[J]. 天然气地球科学, 2012 , 23(6) : 1179 -1184 . DOI: 10.11764/j.issn.1672-1926.2012.06.1179
During the development of fractured and watered gas reservoir,production wells can be easily accessed by the edge water or bottom water along the fracture channel,and gas-water flow is developed.This causes the increase of flow resistance,closure and separation of some gas area,hence,the decrease of well production and recovery,which has great harm to gas production.Based on the characteristics of the fractured and watered gas reservoir,a physical model of displacement of gas by water is established.By means of water invasion seepage modeling experiment,the microscopic mechanism of water invasion about the gas reservoir is found.When the gas reservoir is watered,gases are dominated by trapped gas,cut gas and water-locked gas.Water invasion of gas reservoir can be macroscopically classified into water invasion of rocks with low permeability,water invasion of gas reservoir and “reverse water invasion” of well shutdown.It makes the gas area separated and watered,and changes the mobile gas into “dead gas”.Combined with the mechanism of water invasion of gas reservoir,the water invasion rules of K6 gas well fracture system has been studied,which provided a sound basis for the development and adjustment of gas reservoirs.
[1]Shu Zhuangzhi,Du Zhimin,Liu Jianyi,et al .Water-lock experiments of carbonate fractured gas reservoirs with water drive[J].Natural Gas Industry,2004,24(6):89-92.[疏壮志,杜志敏,刘建仪,等.碳酸盐岩裂缝性水驱气藏水锁实验研究[J].天然气工业,2004,24(6):89-92.]
[2]Zhang Bo,Li Jianghai,Wu Shiping,et al .The quantitative description of tight sand reservoir fissures in Dabei gas field[J].Natural Gas Geoscience,2010,21(3):42-46.[张博,李江海,吴世萍,等.大北气田储层裂缝定量描述[J].天然气地球科学,2010,21(3):42-46.]
[3]Yan Fengming,Kang Yili,Li Song,et al .Simulated experiment on stress sensitivity in fractured-vuggy reservoir[J].Natural Gas Geoscience,2010,21(3):489-493,507.[闫丰明,康毅力,李松,等.裂缝—孔洞型碳酸盐岩储层应力敏感性实验研究[J].天然气地球科学,2010,21(3):489-493,507.]
[4]He Xiaodong,Zou Shaolin,Lu Xiaomin.A preliminary discussion on mechanism and recognition of water invasion characteristics in edge water drive gas reservoir[J].Natural Gas Industry,2006,22(4):67-70.[何晓东,邹绍林,卢晓敏.边水气藏水侵特征识别及机理初探[J].天然气工业,2006,22(4):67-70.][JP]
[5]Zhang Yan,Zheng Zhijun,Lu Gaixin,et al .Application of three-dimensional geological modeling and numerical simulation in exploitation of fractured water-gas reservoirs[J].Natural Gas Geoscience,2010,21(5):863-867.[张岩,郑智君,鲁改欣,等.三维地质建模与数值模技术在裂缝型有水气藏开发中的应用[J].天然气地球科学,2010,21(5):863-867.]
[6]Cui Yingchun,Li Tiantai,Li Tiancai,et al .Water producing character and influencing factors of Shan2 gas reservoir in Yulin gas field[J].Petroleum Geology and Recovery Efficiency,2008,15(6):86-88.[崔迎春,李天太,李天才,等.榆林气田山2气藏产水特征及其影响因素[J].油气地质与采收率,2008,15(6):86-88.]
[7]Zhang Xinzheng,Zhang Liehui,Li Yulin,et al .A new method for water invasion performance prediction in the early stage of fractured and water-carrying gas reservoir development[J].Journal of Southwest Petroleum University,2007,29(5):82-85.[张新征,张烈辉,李玉林,等.预测裂缝型有水气藏早期水侵动态的新方法[J].西南石油大学学报,2007,29(5):82-85.][JP]
[8]Sun Laixi,Wu Jiantang,Zhu Shaopeng.Reasons of producing water in the low-permeability gas/water reservoirs without edge/bottom water[J].Natural Gas Industry,2008,28(1):113-115.[孙来喜,武楗棠,朱绍鹏.低渗透无边、底水气水同产气藏产水原因分析[J].天然气工业,2008,28(1):113-115.][JP]
[9]Luo Tao,Wang Yang.Research on individual well numerical simulation of fracture water breakthrough gas reservoir[J].Natural Gas Industry,2002,22(supplement):95-97.[罗涛,王阳.裂缝水窜气藏单井数值模拟研究[J].天然气工业,2002,22(增刊):95-97.]
[10]Zhu Huayin,Zhou Juan,Wan Yujin,et al .Microscopic mechanism study of gas-water flow in porous media[J].Petroleum Geology & Expeximent,2004,26(6):571-573.[朱华银,周娟,万玉金,等.多孔介质中气水渗流的微观机理研究[J].石油实验地质,2004,26(6):571-573.]
[11]Hu Yong,Shao Yang,Lu Yongliang,et al .Experimental study on occurrence models of water in pores and the influencing to the development of tight gas reservoir[J].Natural Gas Geoscience,2011,22(1):176-181.[胡勇,邵阳,陆永亮,等.低渗气藏储层孔隙中水的赋存模式及对气藏开发的影响[J].天然气地球科学,2011,22(1):176-181.]
[12]Zhang Peiping.Application of physical simulation of seepage mechanism to the study of reasons of water breakthrough in gas wells[J].Natural Gas Industry,2009,29(7):64-67.[张培平.用渗流机理物理模拟技术研究气田出水机理[J].天然气工业,2009,29(7):64-67.]
[13]He Gengsheng.Petrophysics[M].Beijing:Petroleum Industry Press,2006.[何更生.油层物理[M].北京:石油工业出版社,2006.]
[14]Cieslinskia T,Mosdorf R.Gas bubble dynamics-experiment and fractal analysis[J].International Journal of Heat and Mass Transfer,2005,48(9):1808-1818.
[15]Zhang Liehui,Feng Guoqing,Li Xiaoping,et al .Water breakthrough simulation in naturally fractured gas reservoirs with water drive[J].Journal of Hydrodunamics:Series B,2005,17(4):466-472.
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