[1]刘斌,兰卫星,万芬,等.低渗透油藏变渗透率非达西试井模型[J].油气井测试,2022,31(02):1-6.[doi:10.19680/j.cnki.1004-4388.2022.02.001]
 LIU Bin,LAN Weixing,WAN Fen,et al.Permeabilityvariable nonDarcy well test model of lowpermeability reservoir[J].Well Testing,2022,31(02):1-6.[doi:10.19680/j.cnki.1004-4388.2022.02.001]
点击复制

低渗透油藏变渗透率非达西试井模型()
分享到:

《油气井测试》[ISSN:1006-6977/CN:61-1281/TN]

卷:
31
期数:
2022年02
页码:
1-6
栏目:
出版日期:
2022-04-25

文章信息/Info

Title:
Permeabilityvariable nonDarcy well test model of lowpermeability reservoir
文章编号:
1004-4388(2022)02-0001-06
作者:
刘斌1兰卫星2万芬3张雷1刘春艳1
1.中海石油(中国)有限公司天津分公司 天津 300459
2.中石油辽河油田分公司 辽宁盘锦 124010
3.中海油能源发展股份有限公司工程技术分公司 天津 300452
Author(s):
LIU Bin1 LAN Weixing2 WAN Fen3 ZHANG Lei1 LIU Chunyan1
1.Tianjin Branch of CNOOC (China) Limited, Tianjin 300459, China
2.PetroChina Liaohe Oilfield Company, Panjin, Liaoning 124010, China
3.CNOOC EnerTechDrilling & Production Co., Tianjin 300452, China
关键词:
 低渗透油藏试井解释模型非达西流动变渗透率不渗透边界试井解释曲线径向流动
Keywords:
lowpermeability reservoir well test model nonDarcy flow permeabilityvariable impermeable boundary well test curve radial flow
分类号:
TE353
DOI:
10.19680/j.cnki.1004-4388.2022.02.001
文献标志码:
A
摘要:
 为建立与实际非线性渗流一致的试井解释模型,在考虑低渗透油藏变渗透率渗流效应的基础上,建立了二维低渗透油藏变渗透率非达西试井模型,给出了差分方程组数值求解方法,绘制了考虑不渗透边界影响的试井典型曲线,进行了不渗透边界与低速非达西对低渗透油藏试井曲线的敏感性分析。研究结果表明,对于非达西流动情形,压力导数曲线在径向流动阶段便开始偏离05水平线而逐渐上翘,非达西作用越强,上翘幅度越大,在遇到不渗透边界后上翘幅度加快;对于低渗透油藏,井附近存在不渗透边界时,非达西流动有可能掩盖不渗透边界的影响。该模型可以有效的解决低渗透油藏试井曲线非达西上翘与不渗透边界上翘难以区分的问题,对低渗透油藏的试井解释具有较大的实用意义。
Abstract:
 In order to establish a well test model consistent with actual nonlinear flow pattern, considering the permeabilityvariable flow effect of lowpermeability reservoir, a twodimensional permeabilityvariable nonDarcy well test model of lowpermeability reservoir was established, the numerical solution method of difference equations was given, the well test type curve considering the influence of impermeable boundary was plotted, and the sensitivity of impermeable boundary and lowvelocity nonDarcy flow to the well test curve of lowpermeability reservoir was analyzed. The results show that for nonDarcy flow, the pressure derivative curve begins to deviate from the 05 horizontal line and gradually warps upward in the radial flow stage. The stronger the nonDarcy effect, the greater the warping amplitude; the warping is faster after reaching the impermeable boundary. For lowpermeability reservoirs, when there is an impermeable boundary near the wellbore, nonDarcy flow may cover up the influence of the impermeable boundary. The model proposed can help effectively distinguish between nonDarcy warping and impermeable boundary warping of well test curve of lowpermeability reservoirs, and has great practical significance for well test interpretation of lowpermeability reservoirs.

相似文献/References:

[1]曹银萍,黄宇曦,于凯强,等. 基于ANSYS Workbench完井管柱流固耦合振动固有频率分析[J].油气井测试,2018,27(01):1.[doi:10.19680/j.cnki.1004-4388.2018.01.001]
 CAO Yinping,HUANG Yuxi,YU Kaiqiang,et al. Natural frequency analysis for fluidsolid coupling vibration of completion string based on ANSYS workbench[J].Well Testing,2018,27(02):1.[doi:10.19680/j.cnki.1004-4388.2018.01.001]
[2]高 超,艾 昆,高 辉,等. 基于施工压力曲线的综合滤失系数测试方法及压裂参数优化[J].油气井测试,2018,27(01):8.[doi:10.19680/j.cnki.1004-4388.2018.01.002]
 GAO Chao,AI Kun,GAO Hui,et al.Test method of total leak-off coefficient and optimization of fracturing parameters based on operation pressure curves[J].Well Testing,2018,27(02):8.[doi:10.19680/j.cnki.1004-4388.2018.01.002]
[3]周小林,高志华,张 冲.龙凤山气田大通径免钻桥塞分段压裂先导试验[J].油气井测试,2018,27(01):62.[doi:10.19680/j.cnki.1004-4388.2018.01.010]
 ZHOU Xiaolin,GAO Zhihua,ZHANG Chong. Pilot tests of staged fracturing involving largediameter drillfree bridge plugs in the Longfengshan gas field[J].Well Testing,2018,27(02):62.[doi:10.19680/j.cnki.1004-4388.2018.01.010]
[4]魏 聪,陈宝新,刘 敏,等. 基于反褶积技术的S气井不稳定试井解释[J].油气井测试,2018,27(01):73.[doi:10.19680/j.cnki.1004-4388.2018.01.012]
 WEI Cong,CHEN Baoxin,LIU Min,et al. Interpretation of pressure transient well testing data of S gas well based on deconvolution technique[J].Well Testing,2018,27(02):73.[doi:10.19680/j.cnki.1004-4388.2018.01.012]
[5]张中宝.塔河油田深抽杆式泵一体化管柱工艺[J].油气井测试,2018,27(02):27.[doi:10.19680/j.cnki.1004-4388.2018.02.005]
 ZHANG Zhongbao.Deep integrated rod pumping string applied in Tahe Oilfield[J].Well Testing,2018,27(02):27.[doi:10.19680/j.cnki.1004-4388.2018.02.005]
[6]李军贤.地层出砂井测试工艺优化[J].油气井测试,2018,27(02):47.[doi:10.19680/j.cnki.1004-4388.2018.02.008]
 LI Junxian.Optimization of testing techniques for wells with formation sand production[J].Well Testing,2018,27(02):47.[doi:10.19680/j.cnki.1004-4388.2018.02.008]
[7]田向东,康 露,杨 志,等.海上油气井快速诱喷测试技术[J].油气井测试,2018,27(02):41.[doi:10.19680/j.cnki.1004-4388.2018.02.007]
 TIAN Xiangdong,KANG Lu,YANG Zhi,et al.Fast testing of induced flows in offshore oil/gas wells[J].Well Testing,2018,27(02):41.[doi:10.19680/j.cnki.1004-4388.2018.02.007]
[8]张 毅,于丽敏,任勇强,等.一种新型可降解压裂封隔器坐封球[J].油气井测试,2018,27(02):53.[doi:10.19680/j.cnki.1004-4388.2018.02.009]
 ZHANG Yi,YU Limin,REN Yongqiang,et al.A new type of degradable setting ball for fracturing packers[J].Well Testing,2018,27(02):53.[doi:10.19680/j.cnki.1004-4388.2018.02.009]
[9]褚春波,郭 权,黄小云,等.有限元分析径向水力压裂裂缝扩展影响因素[J].油气井测试,2018,27(02):59.[doi:10.19680/j.cnki.1004-4388.2018.02.010]
 CHU Chunbo,GUO Quan,HUANG Xiaoyun,et al.Finiteelement analysis on influencing factors for propagation of fractures induced in radial jet hydraulic fracturing[J].Well Testing,2018,27(02):59.[doi:10.19680/j.cnki.1004-4388.2018.02.010]
[10]庞伟.酸性气藏深井产能试井方法[J].油气井测试,2018,27(02):67.[doi:10.19680/j.cnki.1004-4388.2018.02.011]
 PANG Wei.Deliverability test method for deep sour gas wells[J].Well Testing,2018,27(02):67.[doi:10.19680/j.cnki.1004-4388.2018.02.011]
[11]汪刚,王学峰,赵杰,等. 白豹油田白111区块延10油层组开发存在的问题及政策调整[J].油气井测试,2020,29(02):69.[doi:10.19680/j.cnki.1004-4388.2020.02.012]
 WANG Gang,WANG Xuefeng,ZHAO Jie,et al.Problems and policy adjustment of Yan10 oil formation development in block Bai111 of Baibao Oilfield[J].Well Testing,2020,29(02):69.[doi:10.19680/j.cnki.1004-4388.2020.02.012]
[12]王云川,周玉龙,袁浩仁,等.基于灰色关联法的滨425区块压裂效果影响因素分析[J].油气井测试,2021,30(01):73.[doi:10.19680/j.cnki.1004-4388.2021.01.013]
 WANG Yunchuan,ZHOU Yulong,YUAN Haoren,et al. Analysis on influencing factors of fracturing effect in Bin 425 block based on grey correlation method[J].Well Testing,2021,30(02):73.[doi:10.19680/j.cnki.1004-4388.2021.01.013]
[13]李超. 低渗透油藏压前不稳定试井数据与压裂效果的关系分析[J].油气井测试,2023,32(01):74.[doi:10. 19680/ j. cnki. 1004-4388. 2023. 01. 013]
 [J].Well Testing,2023,32(02):74.[doi:10. 19680/ j. cnki. 1004-4388. 2023. 01. 013]

备注/Memo

备注/Memo:
 2021-08-09收稿,2021-12-09修回,2022-03-03接受,2022-04-20网络版发表
“十三五”国家科技重大专项“渤海油田高效开发示范工程”(2016ZX05058)
刘斌,男,1986年出生,2013年获中国石油大学(北京)硕士研究生学位,现主要从事油气藏开发研究工作。电话:02266500881, 13207631129,Email:liubin74@cnooc.com.cn。通信地址:天津市滨海新区海川路2121号渤海石油管理局B座,邮政编码:300459。
更新日期/Last Update: 2022-05-06