低渗透油藏变导流垂直裂缝井产能模型

doi:10.3969/j.issn.1673-8926.2013.06.023

Lithologic Reservoirs ›› 2013, Vol. 25 ›› Issue (6): 122-126.doi: 10.3969/j.issn.1673-8926.2013.06.023

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A productivity model of vertically fractured well with varying conductivity for low permeability reservoirs

XIONG Jian¹， ZENG Shan²， WANG Shaoping²

1. State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation， Southwest Petroleum University， Chengdu 610500， China； 2. No. 2 Oil Production Plant， PetroChina Changqing Oilfield Company， Qingyang 745100， China

Online:2013-11-26 Published:2013-11-26

Abstract

Abstract:

In view of that the flow conductivity of vertical fracture varies at different place after fracturing in the low permeability reservoirs, based on the change of fluid flowrule after fracturing, this paper established a productivitymodel of vertically fractured well with varying conductivity for lowpermeability reservoirs, considering the influence of starting pressure gradient, and analyzed the influences of different factors on productivity. The result shows that the influence of the attenuation coefficient on the oil well productivity increases with the enhancement of producing pressure drop, and decreases with the increase of crack length. When the fracture conductivity is small, the longer the crack length is, the bigger the attenuation coefficient is, and the less the oil well productivity is. On the contrary, the shorter the crack length is, the smaller the attenuation coefficient is, and the more the oil well productivity is.

Key words: reservoir sensitivity, Toutunhe Formation, Middle Jurassic, Fudong slope

XIONG Jian，ZENG Shan，WANG Shaoping. A productivity model of vertically fractured well with varying conductivity for low permeability reservoirs[J].Lithologic Reservoirs, 2013, 25(6): 122-126.

References

［1］蒋廷学，王宝峰，单文文，等.整体压裂优化方案设计的理论模式［J］.石油学报，2001，22（5）：58-62.
［2］李书恒，赵继勇，崔攀峰，等.超低渗透储层开发技术对策［J］.岩性油气藏，2008，20（3）：128-131.
［3］刘慈群.垂直裂缝地层中流体的渗流［J］.石油勘探与开发，1987，8（3）：69-73.
［4］赵勇，李新英，李达.苏里格气田细分粒径支撑剂导流能力评价及试验［J］.天然气工业，2011，31（8）：65-68.
［5］李士斌，张立刚，高铭泽，等.清水不加砂压裂增产机理及导流能力测试［J］.石油钻采工艺，2011，33（6）：66-69.
［6］王雷，张士诚，温庆志.不同类型支撑剂组合导流能力实验研究［J］.钻采工艺，2012，35（2）：81-83.
［7］ Soliman M Y. Numerical models estimates fracture production increase［J］. Oil & Gas Journal，1986，84（41）：70-74.
［8］蒋廷学，单文文，杨艳丽.垂直裂缝井稳态产能的计算［J］.石油勘探与开发，2001，28（2）：61-63.
［9］尹洪军，刘宇，付春权.低渗透油藏压裂井产能分析［J］.特种油气藏，2005，12（2）：55-56.
［10］陈德民，杨龙，苏富林，等.有限导流垂直裂缝井稳态渗流解析解及产能分析［J］.特种油气藏，2006，13（4）：62-64.
［11］王健，张英芝，丁一萍，等.非达西流动条件下有限导流垂直裂缝气井IPR 曲线［J］.特种油气藏，2009，16（4）：54-56.
［12］黄勇，李春兰，程林松，等.低渗透油藏垂直裂缝井产能评价新方法［J］.油气地质与采收率，2010，17（1）：99-101.
［13］熊健，邱桃，郭平，等.非线性渗流下低渗气藏压裂井产能评价［J］.石油钻探技术，2012，40（3）：92-96.
［14］ Bennett C O，Rosato N D，Reynolds A C，et al. Influence of fracture heterogeneity and wing length on the response of vertically fractured wells［R］. SPE 9886，1983.
［15］任勇，郭建春，赵金洲，等.压裂井裂缝导流能力研究［J］.河南石油，2005，19（1）：46-48
［16］焦春艳，何顺利，张海杰，等.变导流能力下压裂井生产动态研究［J］.西南石油大学学报：自然科学版，2011，33（4）：107-110.
［17］张晓亮，李娣，孙君书，等.低渗透油藏压裂井产能分析［J］.科技导报，2011，29（19）：58-61.
［18］牟珍宝，樊太亮.圆形封闭油藏变导流垂直裂缝井非稳态渗流数学模型［J］.油气地质与采收率，2006，13（6）：66-69.
［19］罗天雨，赵金洲，郭建春.求取压裂后气井产能的椭圆流方法［J］.天然气工业，2005，25（10）：94-96.

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