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作 者:李华阳[1] 李潮流[1] 周灿灿[1] 胡法龙[1] 李霞[1] 邹友龙[1]
出 处:《测井技术》2014年第2期125-130,共6页Well Logging Technology
基 金:国家油气重大专项复杂储层油气测井解释理论方法与处理技术(2011ZX05020-008);中国石油天然气集团公司测井前沿技术与应用基础研究项目(2011A-3901)
摘 要:致密砂岩等非常规储层孔隙空间复杂,常规驱替等实验手段不能满足其岩石物理研究精度和时效性要求,亟需大力发展测井数字岩石物理分析技术。在分析测井数字岩石物理研究技术发展历史的基础上介绍了近年来在配套设备、模拟方法等方面取得的进展。结合致密砂岩储层特征讨论了该技术现阶段面临的4个主要问题和挑战:①分辨率与储层非均质性之间存在矛盾严重影响模拟精度;②图像分割与构建数字孔隙格架过程的多解性强;③缺乏能够模拟黏土矿物影响的方法模型;④现有模拟方法的时效性亟需优化完善。指出了该技术近期需重点攻关的2个方向为多分辨率三维孔隙网络整合和趋势云分析技术。The unconventional oil & gas resource, as tight sand reservoir, has more complex pore-structure. The frequently-used displacement experiment is inadequate in the accuracy and efficiency for the test of this kind of samples, and the numerical petrophysical properties research with log data is urgently needed. With historical review of numerical petrophysical technology, this paper gives detailed introduction on its recent development in associated equipment and numerical simulation methods. Based on tight sand reservoir characteristics, this paper discusses four challenges of this technology at the present stage. ① The contradiction between resolution and reservoir anisotropy influences simulation precision seriously; ② The image segmentation and numerical pore frame build process exists strong multiple solutions; ③ We do not have numerical models which could simulate influence of clay minerals; ④ The effectiveness of present simulation method needs to be optimized and completed. And the author suggests two key research directions of the numerical petrophysical technologies with log data in the near future: 3D pore network integration with multi-resolution and tendency cloud analysis technology.
关 键 词:岩石物理性质 致密砂岩 非常规储层 CT扫描 数值模拟
分 类 号:P631.84[天文地球—地质矿产勘探]
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