考虑低渗点启动压力梯度的中东孔隙型碳酸盐岩油藏波及系数修正方法
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摘要
根据中东地区孔隙型碳酸盐岩油藏渗透率分布范围大、低渗与中高渗渗流规律并存的特征,针对低渗点存在启动压力梯度而难以动用的问题,采用数值模拟方法分析低渗点启动压力梯度对油藏波及系数的影响规律,通过耦合低渗点启动压力与井间驱替压力分布,提出考虑低渗点启动压力梯度的孔隙型碳酸盐岩油藏波及系数修正方法。以中东地区M油藏为例进行应用分析,计算得到的渗透率为5×10~(-3)~35×10~(-3)μm~2、变异系数为0.6~0.8时,波及修正系数分布范围为0.75~0.99,证明了该孔隙型碳酸盐岩油藏波及系数修正方法的可靠性和实用性。
Based on the characteristics of the large scope permeability distribution, and the joint action of the seepage law for both low permeability and medium to high permeability, aiming at the problem of the recovery restriction for low permeability points caused by the start-up pressure, the influence of the start-up pressure gradient of low permeability points on the sweep coefficient is studied by the numerical simulations. Also, by coupling the start-up pressure gradient and the displacement pressure distribution for the low permeability point, the correction method for the sweep efficiency is established. Result shows that the lower the reservoir permeability and the higher the permeability variation, the greater the influence of the start-up pressure of the low permeability points on the sweep coefficient. Taking the M oil reservoir in the Middle East as an example, the application analysis is carried out. When the reservoir permeability is between 5~35×10~(-3)μm~2 and the permeability variation is between 0.6~0.8, the range of the correction coefficient is about 0.75~0.99, which in turn can correct the calculation of the sweep efficiency in the industry standards.
Based on the characteristics of the large scope permeability distribution, and the joint action of the seepage law for both low permeability and medium to high permeability, aiming at the problem of the recovery restriction for low permeability points caused by the start-up pressure, the influence of the start-up pressure gradient of low permeability points on the sweep coefficient is studied by the numerical simulations. Also, by coupling the start-up pressure gradient and the displacement pressure distribution for the low permeability point, the correction method for the sweep efficiency is established. Result shows that the lower the reservoir permeability and the higher the permeability variation, the greater the influence of the start-up pressure of the low permeability points on the sweep coefficient. Taking the M oil reservoir in the Middle East as an example, the application analysis is carried out. When the reservoir permeability is between 5~35×10~(-3)μm~2 and the permeability variation is between 0.6~0.8, the range of the correction coefficient is about 0.75~0.99, which in turn can correct the calculation of the sweep efficiency in the industry standards.
引文
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[13]Welge H J.A simplified method for computing oil recovery by gas or water drive[J].Journal of Petroleum Technology,1952,4(4):91-98.
[14]Shiralkar G.Reservoir simulation of generally anisotropic systems[J].SPE Reservoir Engineering,1990,5(3):409-414.
[15]Sajjadi S A,Nasriani H R,Dailami K.Optimizing volumetric sweep efficiency in water flooding by streamline simulation[J].Energy Sources Part A-Recovery Utilization and Environmental Effects,2017(3):1-8.
[2]国家能源局.SY/T-2010石油可采储量计算方法[S].北京:石油工业出版社,2010.National Energy Administration.SY/T-2010 Petroleum recoverable reserves calculation method[S].Beijing:Petroleum Industry Press,2010.
[3]陈元千,刘雨芬,毕海滨.确定水驱砂岩油藏采收率的方法[J].石油勘探与开发,1996(4):58-60.Chen Yuanqian,Liu Yufen,Bi Haibin.Method for determining oil recovery of water flooding sandstone reservoir[J].Petroleum Exploration and Development,1996(4):58-60.
[4]俞启泰,赵明,林志芳.水驱砂岩油田驱油效率和波及系数研究[J].石油勘探与开发,1989(2):48-52.Yu Qitai,Zhao Ming,Lin Zhifang.Study on oil displacement efficiency and sweep coefficient of water drive sandstone oilfield[J].Petroleum Exploration and Development,1989(2):48-52.
[5]吕栋梁,唐海,郭粉转,等.低渗透油田反九点井网面积波及效率影响研究[J].西南石油大学学报(自然科学版),2012,34(1):147-153.Lv Dongliang,Tang Hai,Guo Fenzhuan,et al.Study on the influence of the area efficiency of the anti-nine-point well network in low permeability oilfield[J].Journal of Southwest Petroleum University(Science&Technology Edition),2012,34(1):147-153.
[6]郭粉转,高海龙,孟选刚,等.低渗透油田注采井网合理性评价[J].特种油气藏,2013,20(5):118-121.Guo Fenzhuan,Gao Hailong,Meng Xuangang,et al.Rationality evaluation of injection-production well pattern in low permeability oilfield[J].Special Oil&Gas Reservoirs,2013,20(5):118-121.
[7]沈非,程林松,黄世军,等.基于流管法的普通稠油水驱波及系数计算方法[J].石油钻采工艺,2016,38(5):645-649.Shen Fei,Cheng Linsong Huang Shijun,et al.Calculation method of sweeping coefficient of common heavy oil water drive based on flow tube method[J].Oil Drilling&Production technology,2016,38(5):645-649.
[8]范江,张子香.非均质油层波及系数计算模型[J].石油学报1993(1):92-98.Fan Jiang,Zhang Zixiang.Heterogeneous oil layer sweep coefficient calculation model[J].Acta Petrolei Sinica,1993(1):92-98.
[9]杨凤波.注采井数比对水驱采收率的影响[J].新疆石油地质1998(5):61-64.Yang Fengbo.Influence of injection-production ratio on waterflood recovery[J].Xinjiang Petroleum Geology,1998(5):61-64.
[10]杨正明,蒋帅,张亚蒲,等.低渗碳酸盐岩油藏储层综合评价方法[J].西南石油大学学报(自然科学版),2016,38(1):68-73.Yang Zhengming,Jiang Shuai,Zhang Yapu,et al.Comprehensive evaluation method for reservoirs of low permeability carbonate reservoirs[J].Journal of Southwest Petroleum University(Science&Technology Edition),2016,38(1):68-73.
[11]牛彦良,李莉,韩德金,等.低渗透油藏水驱采收率计算新方法[J].石油学报,2006(2):77-79.Niu Yanliang,Li Li,Han Dejin,et al.A new method for calculating waterflood recovery in low permeability reservoirs[J].Acta Petrolei Sinica,2006(2):77-79.
[12]沈瑞,高树生,胡志明,等.低渗透油藏水驱波及系数计算方法及应用[J].大庆石油地质与开发,2013(2):60-65.Shen Rui,Gao Shusheng,Hu Zhiming,et al.Calculation method and application of water drive sweep coefficient in low permeability reservoirs[J].Petroleum Geology&Oilfield Development in Daqing,2013(2):60-65.
[13]Welge H J.A simplified method for computing oil recovery by gas or water drive[J].Journal of Petroleum Technology,1952,4(4):91-98.
[14]Shiralkar G.Reservoir simulation of generally anisotropic systems[J].SPE Reservoir Engineering,1990,5(3):409-414.
[15]Sajjadi S A,Nasriani H R,Dailami K.Optimizing volumetric sweep efficiency in water flooding by streamline simulation[J].Energy Sources Part A-Recovery Utilization and Environmental Effects,2017(3):1-8.
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