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针对塔里木、四川和鄂尔多斯盆地海相深层油气富集机理与关键工程技术基础研究的需求,国家自然科学基金委员会于2020年初启动了企业创新发展联合基金集成项目。该文简要回顾了项目在古克拉通盆地原型-改造作用分析、海相深层碳酸盐岩油气和深层页岩气富集与流动机理、深层复杂构造成像与多类型储层预测原理、高温高压深层钻完井工程与控制原理等方面取得的初步研究进展,并介绍了在塔里木和四川盆地的部分初步应用和推广情况。 相似文献
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大牛地气田大12-大66井区沉积微相与储层产能关系 总被引:1,自引:0,他引:1
以大牛地气田大12—大66井区为研究对象,基于物质供给和沉积水动力条件、河道结构与特征,探讨了沉积微相纵向结构与产能分布之间的成因关系,沉积微相横向结构与产能分布之间的内在关系。研究表明,物质供给和沉积水动力条件的组合关系是影响沉积微相纵向产能分布规律,其中物质供给充分、稳定的强水动力条件下,主要为中高产气层;分流河道微相中心位置,测试产能相对稳定,中高产气层分布比较多。分流河道微相边部,测试产能有不稳定的特点。两个强水动力沉积的河道交汇处,是中、高产气层的密集发育区。另外,曲流化的固定河道,因复杂化而形状变化大、难钻遇,但潜力大。不稳定河道,储层整体产能低,但强水动力沉积区仍具挖潜价值。研究结果与大12—大66井区生产测试结果吻合。 相似文献
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《International Journal of Impact Engineering》1988,7(2):125-138
The dynamic response of diametrically braced metallic tubes under impact loading conditions is investigated both experimentally and numerically. The effects of strain rate and the initial collapsing mode configuration on the resulting force (acceleration) levels at the impacted end of the tube are discussed. Differences in energy dissipation characteristics of the braced tubes under quasi-static and impact loading conditions are described as functions of the bracing orientation. 相似文献
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为解决蒸汽吞吐稠油水平井割缝筛管完井理论研究落后于工程应用的问题,综合水平井蒸汽注入阶段、焖井阶段、生产阶段的传热与传质分析,建立了割缝筛管完井参数优化模型,分析了割缝宽度、筛管外径、割缝密度、割缝长度、单元割缝数、圆周割缝数、割缝堵塞对水平井产能的影响。结果表明:水平井产能随着割缝宽度、筛管外径、割缝密度、割缝长度、单元割缝数的增大而增大,且变化逐步趋于平缓;对割缝筛管完井水平井产能影响大的因素是割缝长度、割缝密度、割缝堵塞厚度;割缝堵塞最大可造成高达65%的产能损失;以"砂桥"原则设计割缝宽度会限制产能,在高油价条件下可以考虑放大割缝宽度适度出砂。 相似文献
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A microrheology analyzer was adapted to in-situ follow the development of viscoelastic properties of fresh cement pastes (FCPs) for the first time. It enables a non-disturbing measurement on the FCPs through monitoring the mean square displacement of cement particles, which gives an insight into the elastic and viscous properties of materials from a microstructural point of view. Various parameters including elastic index, macroscopic viscosity index, storage modulus, loss modulus and Maxwell parameters were obtained to quantitatively analyze the viscoelastic properties of FCPs. Results indicate that these parameters show a progressive increase with time at first and then stay stable. The incorporation of superplasticizer significantly decreases these parameters and their growth rates. Moreover, superplasticizer could evidently weaken the elastic feature of the FCP due to its effects of improving the dispersion of cement grains and retarding cement hydration. The effects of superplasticizer are more pronounced at lower water to cement ratio. 相似文献
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