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稀油区块高含水期套损井综合治理研究
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作者 魏友谊 《石油石化物资采购》 2019年第22期56-56,共1页
沈阳油田经过近40年的注水开发,套损总井数270口左右,套损率达到8%,造成部分区块注采平衡关系不完善,制约了油田注采结构进一步优化调整。根据分析套损井套损原因、套损特点和类型,结合油田开发实际,开展套损井综合治理研究,实现注采井... 沈阳油田经过近40年的注水开发,套损总井数270口左右,套损率达到8%,造成部分区块注采平衡关系不完善,制约了油田注采结构进一步优化调整。根据分析套损井套损原因、套损特点和类型,结合油田开发实际,开展套损井综合治理研究,实现注采井网的完善和挖潜剩余油潜力,经过现场试验应用,见到显著效果,为提高油田开发效果提供依据和指导。 展开更多
关键词 套损率 注采井网 超压注水 综合调整
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注水井优化细分的原则及潜力 被引量:1
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作者 谭畅 《内蒙古石油化工》 CAS 2014年第11期53-54,共2页
近年来,随着井网的不断加密,开发对象逐渐复杂,各类油层之间注采关系矛盾突出,油层非均衡性逐渐加大,尤其水驱进入的特高含水期开发阶段,注水井的精细细分调整成为了提高油层动用程度的重要手段之一。同时由于注采不均衡、平面及层间压... 近年来,随着井网的不断加密,开发对象逐渐复杂,各类油层之间注采关系矛盾突出,油层非均衡性逐渐加大,尤其水驱进入的特高含水期开发阶段,注水井的精细细分调整成为了提高油层动用程度的重要手段之一。同时由于注采不均衡、平面及层间压力差异大等原因,易造成套管损坏。油水井是油田生产的基本单元,其套管损坏后,不但会使原有的注采系统受到破坏、影响原油产量,修复已损坏的套损井,也要投入较多的资金,而细分调整也是控制注水强度,降低套损速度,减少套损井的发生的重要方法。针对注水调整中存在的问题与潜力,不断丰富和完善细分注水标准,通过量化细分调整参数、优化层间细分调整、强化层内细分注水等方法,扩大注水波及体积,降低注水强度,平衡地层压力,努力提高油层动用程度,达到"水驱控递减"的目的。 展开更多
关键词 细分调整 注水波及体积 注水强度 套损率
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Three-Dimensional Finite Element Numerical Simulation and Physical Experiment for Magnetism-Stress Detecting in Oil Casing 被引量:2
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作者 MENG Fanshun ZHANG Jie +2 位作者 YANG Chaoqun YU Weizhe CHEN Yuxi 《Journal of Ocean University of China》 SCIE CAS 2015年第4期669-674,共6页
The casing damage has been a big problem in oilfield production. The current detection methods mostly are used after casing damage, which is not very effective. With the rapid development of China's offshore oil i... The casing damage has been a big problem in oilfield production. The current detection methods mostly are used after casing damage, which is not very effective. With the rapid development of China's offshore oil industry, the number of offshore oil wells is becoming larger and larger. Because the cost of offshore oil well is very high, the casing damage will cause huge economic losses. What's more, it can also bring serious pollution to marine environment. So the effective methods of detecting casing damage are required badly. The accumulation of stress is the main reason for the casing damage. Magnetic anisotropy technique based on counter magnetostriction effect can detect the stress of casing in real time and help us to find out the hidden dangers in time. It is essential for us to prevent the casing damage from occurring. However, such technique is still in the development stage. Previous studies mostly got the relationship between stress and magnetic signals by physical experiment, and the study of physical mechanism in relative magnetic permeability connecting the stress and magnetic signals is rarely reported. The present paper uses the ANSYS to do the three-dimensional finite element numerical simulation to study how the relative magnetic permeability works for the oil casing model. We find that the quantitative relationship between the stress' s variation and magnetic induction intensity's variation is: Δδ =K* ΔB, K = 8.04×109, which is proved correct by physical experiment. 展开更多
关键词 oil casing damage magnetism-stress detecting magnetic anisotropy finite element analysis physical experiment relative magnetic permeability ANSYS three-dimensional numerical simulation
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