修正二项式产能方程在致密气藏中的应用
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- 英文论文题名:Application of modified binomial productivity equation in tight gas reservoirs
- 论文作者:刘海龙
- 英文论文作者:Liu Hailong
- 年:2017
- 作者机构:中国石化石油勘探开发研究院;
- 论文关键词:致密气藏 ; 气井产能 ; 非达西渗流 ; 滑脱效应 ; 压敏效应 ; 启动压力梯度
- 英文论文关键词:tight gas reservoir ; gas well productivity ; non-Darcy seepage ; slippage effect ; pressure-sensitive effect ; starting pressure gradient
- 会议召开时间:2017-06-01
- 会议录名称:《采油工程文集》2017年第2辑
- 英文会议录名称:Oil Production Engineering
- 语种:中文
- 分类号:TE328;TE37
- 学会代码:DQGY
- 学会名称:大庆油田有限责任公司采油工程研究院
- 页数:8
- 文件大小:1228k
- 原文格式:D
摘要
目前致密气藏产能研究主要考虑压敏效应和启动压力梯度,极少考虑滑脱效应,且缺少相应的非达西渗流影响程度评价方法。因此,针对致密气藏的渗流特征,通过设置拟压力函数,采用等值渗流阻力方法,推导了非达西渗流特征影响下的气井产能方程,并修正了二项式产能方程,进行了敏感性分析。实例计算表明:压敏效应影响最大,启动压力梯度和滑脱效应次之,但不能忽略其对水平气井产能的影响。滑脱效应使气井产量升高,平均升高幅度约为1.91%;压敏效应使气井产量降低,最大可降低13.72%,平均降低幅度约为7.19%;启动压力梯度使气井产量降低,平均降低幅度约为1.86%。修正二项式产能方程在致密气藏中的应用,为致密气藏产能建设及其优化提供了一定的技术支持。
The pressure-sensitive effect and starting pressure gradient are the main considerations in the present study of tight gas productivity, while the slippage effect is seldom considered. Moreover, the evaluation method for the impact degree of non-Darcy seepage is needed to set up. Therefore, according to the seepage characteristics of tight gas reservoirs and through setting up the pseudo pressure function, the productivity equation of gas well was derived under the influence of non-Darcy seepage characteristics with equivalent seepage resistance method. The binomial productivity equation was corrected; the sensibility analysis was made as well. Actual calculation showed that pressure-sensitive effect was the most significant, starting pressure gradient and slippage effect were secondary, but the effect of those on the productivity of horizontal gas well can′t be neglected. The slippage effect enhances the gas well production with the average increment of about 1. 91%; the pressure-sensitive effect reduces the gas well production with the maximum decrement of 13. 72% and the average decrement of 7. 19%; and the starting pressure gradient reduces the gas well production with the average decrement of about 1. 86%. The application of modified binomial productivity equation in the tight gas reservoirs can provide a certain technical support for productivity construction and optimization of tight gas reservoirs.
The pressure-sensitive effect and starting pressure gradient are the main considerations in the present study of tight gas productivity, while the slippage effect is seldom considered. Moreover, the evaluation method for the impact degree of non-Darcy seepage is needed to set up. Therefore, according to the seepage characteristics of tight gas reservoirs and through setting up the pseudo pressure function, the productivity equation of gas well was derived under the influence of non-Darcy seepage characteristics with equivalent seepage resistance method. The binomial productivity equation was corrected; the sensibility analysis was made as well. Actual calculation showed that pressure-sensitive effect was the most significant, starting pressure gradient and slippage effect were secondary, but the effect of those on the productivity of horizontal gas well can′t be neglected. The slippage effect enhances the gas well production with the average increment of about 1. 91%; the pressure-sensitive effect reduces the gas well production with the maximum decrement of 13. 72% and the average decrement of 7. 19%; and the starting pressure gradient reduces the gas well production with the average decrement of about 1. 86%. The application of modified binomial productivity equation in the tight gas reservoirs can provide a certain technical support for productivity construction and optimization of tight gas reservoirs.
引文
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[8]李乐忠,李相方,何东博.考虑变启动压降低渗气藏产能方程的建立[J].油气井测试,2010,19(1):5-7.
[9]郭晶晶,张烈辉,梁斌.考虑启动压力梯度的低渗透气藏压裂井产能分析[J].天然气工业,2010,30(7):45-47.
[10]杨学云,张学婧,蒋国斌,等.启动压力梯度影响下低渗透气藏水平井产能模型的建立[J].特种油气藏,2010,17(1):85-87.
[11]Jing Lu.New productivity formulae of horizontal wells[J].Canadian Petroleum Technology,2001,40(10):55-67.
[12]Li X,Huang B,Hu Y.The establishment and application of binomial deliverability equation for horizontal gas well[J].JCPT,2003,42(10):8-10.
[13]刘海龙,刘俊余.基于新的渗流模型的致密砂岩油藏多级压裂水平井数值模拟[G]∥大庆油田有限责任公司采油工程研究院.采油工程文集2017年第1辑.北京:石油工业出版社,2017:4-15.
[2]胡文瑞.中国非常规天然气资源开发与利用[J].大庆石油学院学报,2010,34(5):10-16.
[3]胥洪俊,范明国,康征,等.考虑渗透率应力敏感的低渗气藏产能预测公式[J].天然气地球科学,2008,19(1):145-147.
[4]孙来喜,李成勇,李成,等.低渗透气藏应力敏感与气井产量分析[J].天然气工业,2009,29(4):74-76.
[5]杨滨,姜汉桥,陈民锋,等.应力敏感气藏产能方程研究[J].西南石油大学学报(自然科学版),2008,30(5):158-160.
[6]蒋艳芳,张烈辉,刘启国,等.应力敏感影响下低渗透气藏水平井产能分析[J].天然气工业,2011,31(10):54-56.
[7]孟令强,黄炳光,孟琦,等.考虑变启动压降的低渗气藏压裂井产能分析[J].天然气勘探与开发,2013,36(4):57-60.
[8]李乐忠,李相方,何东博.考虑变启动压降低渗气藏产能方程的建立[J].油气井测试,2010,19(1):5-7.
[9]郭晶晶,张烈辉,梁斌.考虑启动压力梯度的低渗透气藏压裂井产能分析[J].天然气工业,2010,30(7):45-47.
[10]杨学云,张学婧,蒋国斌,等.启动压力梯度影响下低渗透气藏水平井产能模型的建立[J].特种油气藏,2010,17(1):85-87.
[11]Jing Lu.New productivity formulae of horizontal wells[J].Canadian Petroleum Technology,2001,40(10):55-67.
[12]Li X,Huang B,Hu Y.The establishment and application of binomial deliverability equation for horizontal gas well[J].JCPT,2003,42(10):8-10.
[13]刘海龙,刘俊余.基于新的渗流模型的致密砂岩油藏多级压裂水平井数值模拟[G]∥大庆油田有限责任公司采油工程研究院.采油工程文集2017年第1辑.北京:石油工业出版社,2017:4-15.
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