李敬松,刘汝敏,吴英,李洪
LI Jingsong,LIU Rumin,WU Ying,LI Hong

• 1:中海油田服务股份有限公司油田生产研究院
• 2:中国地质大学能源学院

摘要(Abstract)：

针对致密气藏气井压胀松动增产后产生压胀松动区,基于稳定流理论,建立了考虑滑脱效应、启动压力梯度、应力敏感共同影响下致密气藏压胀松动气井产能预测模型,通过实例分析了各因素对气井产能的影响。研究结果表明:气井产能随启动压力梯度和渗透率变形系数增大而下降,其中n值变化对气井产能影响小,m值越小气井产能下降越大,而随滑脱因子增大而增加;在高流压阶段,压胀半径对气井产能影响程度较小,随着井底压力的降低,压胀半径对气井产能影响程度增强。
In view of the loosened area resulted from the dilatant loosening simulation for the gas well in tight gas reservoirs,on the basis of the steady seepage theory,considering the mutual influence among the slippage effect,start-up pressure gradient and stress sensitivity the reservoirs,the well predicting model was established after the simulation,and moreover with the help of the case history analysis,the influencing factors of the gas well productivity were figured out. The achievements show that the gas well productivity declines with the rises of the start-up pressure gradient and permeability deformation coefficient,in detail,Value n has a little influence on the productivity,the less Value m is,the more the productivity will decrease,but along with the slippage factor enlargement,the productivity continues to increase; in the stage of the high flowing pressure,the radius of the dilatancy has small effect on the gas well productivity,while with the drop of the bottom-hole pressure,the corresponding effect enhances to a certain degree.

关键词(KeyWords)： 致密气藏;压胀松动;启动压力梯度;滑脱效应;应力敏感;产能预测
tight gas reservoir;dilatant loosening;start-up pressure gradient;slippage effect;stress sensitivity;productivity prediction

Abstract:

Keywords:

基金项目(Foundation): 国家科技重大专项“致密油气藏数值模拟新方法与开发设计”(2016ZX05009-005)

作者(Author): 李敬松,刘汝敏,吴英,李洪
LI Jingsong,LIU Rumin,WU Ying,LI Hong

参考文献(References)：

• [1]张杰.岩石压胀特性及压胀松动增产技术研究[D].成都:西南石油大学,2008.
• [2]王爱华,田和金,张杰,等.套管井“压胀松动”增产技术现场实验研究[J].西安石油学院学报,2000,15(1):17-19.
• [3]田和金,薛中天,张杰,等.“压胀松动”增产技术现场试验研究[J].石油钻采工艺,2000,22(2):46-50.
• [4]张杰,廖红伟,薛中天,等.“压胀松动”增产技术[J].天然气工业,2006,26(8):107-109.
• [5]Klinkenberg L J.The permeability of porous media to liquids and gases[J].API Drilling and Production Practice,1941(2):200-213.
• [6]George D V.Application of stress-dependent rock properties in reservoir studies[R].SPE 86979,2004.
• [7]于荣泽,卞亚南,王凯军.特低渗透油藏三维三相非线性渗流数值模拟器研制与应用[J].大庆石油地质与开发,2012,31(1):75-79.
• [8]刘振宇,孟玉娟,魏丹,等.低渗透均质油藏非达西渗流的产量动态规律[J].大庆石油地质与开发,2009,28(3):38-42.
• [9]周新茂,郝明强,鲍敬伟.特低渗透压敏油藏压力分布特征[J].大庆石油地质与开发,2009,28(6):171-174.
• [10]任俊杰,郭平,汪周华.考虑变渗透率模量的压敏油藏产能计算模型[J].大庆石油地质与开发,2012,31(5):65-68.
• [11]王红,王玉英.异常高压、特低渗油藏储层压力敏感性研究[J].大庆石油地质与开发,2003,22(5):28-31.
• [12]王明,朱维耀,宋洪庆,等.低渗透油藏有效驱动半径研究[J].大庆石油地质与开发,2010,29(3):89-92.
• [13]洪舒娜,王勤,李闽,等.确定低渗致密气藏气井无阻流量的方法[J].大庆石油地质与开发,2010,29(5):79-81.
• [14]宋传真,郑荣臣.致密低渗气藏储层应力敏感性及其对单井产能的影响[J].大庆石油地质与开发,2006,25(6):47-49.
• [15]郑春峰,程时清,李冬瑶.低渗透油藏通用非达西渗流模型及压力曲线特征[J].大庆石油地质与开发,2009,28(4):60-63.
• [16]Dranchuk P M,Abou-Kassem J H.Calculation of Z factors for natural gases using equations of state[J].JCPT,1975,14(3):34-36.
• [17]Lee A L,Gonzalez M H,Eakin B E,et al.The viscosity of natural gases[J].JPT,1966,18(8):997-999.