边水推进对水平井产量的影响

doi:10.3969/j.issn.1673-8926.2014.05.020

Lithologic Reservoirs ›› 2014, Vol. 26 ›› Issue (5): 107-112.doi: 10.3969/j.issn.1673-8926.2014.05.020

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Effect of edge water incursion on productivity of horizontal well

LI X iaoping¹， YUAN Lin¹， LUO Cheng²， LIU Bin¹， LIU Zhenping¹

1. State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation， Southwest Petroleum University， Chengdu 610500， China； 2. Geological Exploration and Development Research Institute， CNPC Chuanqing Drilling Engineering Co. Ltd.， Chengdu 610056， China

Online:2014-10-20 Published:2014-10-20

Abstract

Abstract:

During the development of reservoir with edge water, even if the water didn’t break through at the bottom of the horizontal well, the edge water incursion still influences the productivity of horizontal well. Based on the three- dimensional seepage field model of horizontal well, this paper divided the three-dimensional seepage field into two two-dimensional seepage field which are called internal seepage field and external seepage field respectively, used the methods of transformation of coordinates and conformal mapping to obtain the productivity formulas of the two two-dimensional seepage field, eventually got the new productivity formula of horizontal well considering the edge water incursion according to the principle of equivalent filtration resistance. Practical example shows that result calculated by new formula has small absolute and relative error with actual output, which indicates that the new formula is of high accuracy and good practicability. Sensitivity analysis demonstrates that productivity of horizontal well in consideration of edge water incursion is lower than that with no consideration of edge water incursion. Meanwhile, as the increasing of edge water incursion distance, the productivity of horizontal well decreased to a great extent with short horizontal section, while if the horizontal well length is long enough, the effect can be neglected. This study can provide a new solution to predict the productivity of horizontal wells during edge water incursion.

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LI Xiaoping，YUAN Lin，LUO Cheng，LIU Bin，LIU Zhenping. Effect of edge water incursion on productivity of horizontal well[J].Lithologic Reservoirs, 2014, 26(5): 107-112.

References

［1］Barge D，Al-Shaarawy O，Jha M，et al. Successful use of horizontal well technology in mitigating water production and increasing oil recovery in the South Umm Gudair Field，PNZ，Kuwait［R］. SPE 93379，2005：1-9.
［2］周春香，李乐忠，王敏.西 58-8 小断块边水油藏天然能量评价研究［J］.岩性油气藏，2009，21（4）：111-114.
［3］饶良玉，吴向红，李贤兵，等.苏丹层状边水油藏水平井开发效果评价与对策研究［J］.岩性油气藏，2011，23（5）：106-110.
［4］张勇，沈燕来，杨寨.边水驱油藏水平井合理位置的确定方法研究［J］.西南石油学院学报，2003，25（5）：43-45.
［5］田风民.水平井的优化设计及油藏潜力挖掘研究［J］.渤海大学学报：自然科学版，2007，28（3）：207-211.
［6］Hernandez J C，Wojtanowicz A K. Optimum well completion strategies in reservoirs with bottom and edge water invasion ［C］. Canadian International Petroleum Conference，Calgary，Alberta，2007：1-13.
［7］Thornton K，Silliman M Y，Jorquera R，et al. Optimization of inflow control device placement and mechanical conformance decisions using a new coupled well-intervention simulator［R］. SPE 139435，2010：1-10.
［8］范子菲，林志芳.边水驱油藏水平井产能公式研究［J］.大庆石油地质与开发，1994，13（2）：33-37.
［9］郭宝玺，王晓东，罗万静，等.边水油藏水平井三维产能计算新方法［J］.现代地质，2007，21（1）：141-144.
［10］Joshi S D. Augmentation of well productivity with slant and horizontal wells［R］. SPE 15375，1988：729-739.
［11］袁淋，李晓平，孙飞，等.基于相似流动替换法预测水平井产量［J］.油气地质与采收率，2013，20（6）：87-90.
［12］袁淋，李晓平，张璐，等.水平井稳态产能公式对比与分析［J］.岩性油气藏，2013，25（6）：127-132.
［13］计秉玉.油水两相径向稳定渗流条件下压力分布及产量变化特征［J］.大庆石油地质与开发，1995，14（3）：44-46.
［14］李晓平.地下油气渗流力学［M］.北京：石油工业出版社，2008：128-133.

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