机构地区:[1]中海石油(中国)有限公司北京研究中心,北京100020 [2]油气钻采工程湖北省重点实验室,长江大学石油工程学院,湖北武汉430100
出 处:《油田化学》2025年第1期59-67,89,共10页Oilfield Chemistry
基 金:中国海洋石油集团有限公司“十四五”国家重大科技专项“海上低渗及潜山油气田复杂结构井技术”(项目编号KJGG2022-0703);中国海洋石油集团有限公司综合科研项目“渤中19-6潜山低渗凝析气藏高效开发技术研究”(项目编号YXKY-ZX 072021);油气田应用化学四川省重点实验室开放基金“耐高温星型树枝状两亲聚合物RAFT聚合及就地乳化驱油体系构筑”(项目编号YQKF202222)。
摘 要:海上WC油田160℃高温砂岩油气藏酸化中,黏土矿物如伊利石在盐酸中水化分解造成微粒运移和储层伤害,导致油气井产能降低。为解决常规土酸高温反应快、伊利石敏感、酸液穿透距离短的问题,通过高温岩心溶蚀、岩心流动和产出液体离子分析等实验,优选出5%GLDA+8%乙酸+1%HF+1.5%黏土稳定剂NW-1+1%缓蚀剂CT-1的螯合酸体系。该酸液体系在160℃下反应16 h后的溶蚀率为15.2%,对N80钢片的腐蚀速率为3.7451g/(m^(2)·h),防膨率为90.9%,酸液与岩心作用后Si^(4+)、Ca^(2+)、Mg^(2+)、Fe^(3+)含量逐渐增加,说明螯合酸具有多价金属离子螯合作用,避免了酸液对岩心的二次和三次伤害,实现酸液对地层深部穿透的作用。针对螯合酸酸化设计没有成熟的专业软件,使用简化的酸岩反应平面径向流模型,考虑氢氟酸的物质平衡,用MATLAB语言编制了螯合酸酸化模拟设计软件,计算A井优选酸注入排量为2 m^(3)/min,每段酸液用量不超过70 m^(3)。使用螯合酸体系对海上5口注水井成功实施了酸液解堵措施,措施后平均日增注量均达到了110 m^(3)以上,注水压力下降明显,最高降压12 MPa。该螯合酸体系对160℃高含伊利石砂岩气藏具有良好的解堵增注效果。During the acidification of 160℃high temperature sandstone reservoirs in offshore WC oilfield,the clay minerals such as illite are hydrated and decomposed in hydrochloric acid,causing particle migration and reservoir damage,resulting in reduced productivity of oil and gas wells.To solve the problems of fast reaction at high temperatures,sensitivity of illite clay,and short penetration distance of conventional mud acid,experiments such as high-temperature acid dissolution,core flooding,and produced liquid ions analysis were carried out,and a high-temperature resistant chelating acid,composed of 5%GLDA+8%acetic acid+1%HF+1.5%clay stabilizer NW-1+1%corrosion inhibitor CT-1,was proposed.The chelating acid achieved a dissolution rate of 15.2%at the temperature of 160℃for 16 hours,a corrosion rate of 3.7451 g/(m^(2)·h),and an anti-swelling rate of 90.9%.After the chelating acid interacted with the rock core,Si^(4+),Ca^(2+),Mg^(2+),and Fe^(3+)content gradually increased,indicating that the chelating acid had a multivalent metal ion chelating effect,which could avoid secondary and tertiary damage to the rock core by the acid solution,achieving the effect of the acid dissolution on deep penetration of the formation.In response to the lack of mature professional software for chelating acid acidification design,a simplified acid rock reaction plane radial flow model was used,considering the material balance of hydrofluoric acid,a chelating acid acidification simulation design software was developed using MATLAB language.The optimal acid injection rate for Well A was calculated to be 2 m^(3)/min,and the volume of acid used in each section did not exceed 70 m^(3).The chelating acid system was successfully used to remove blockages in 5 offshore water injection wells.After the measures,the average daily injection volume increased by more than 110 m^(3),and the injection pressure decreased significantly,with a maximum pressure drop of 12 MPa.The chelating acid system had a good effect on removing blockages and increasing in
关 键 词:螯合酸 高温 酸化 伊利石 储层伤害 酸化模拟设计 矿场应用
分 类 号:TE357.2[石油与天然气工程—油气田开发工程]
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