机译:用新型转变时间齐全自发水吸收到气饱和岩石的齐全建模
School of Energy Resources China University of Geosciences (Beijing) 29 Xueyuan Road Beijing 100083 China Key Laboratory of Marine Reservoir Evolution and Hydrocarbon Enrichment Mechanism Ministry of Education Beijing 100083 China;
School of Energy Resources China University of Geosciences (Beijing) 29 Xueyuan Road Beijing 100083 China Key Laboratory of Marine Reservoir Evolution and Hydrocarbon Enrichment Mechanism Ministry of Education Beijing 100083 China Department of Energy Resources Engineering Stanford University Stanford CA 94305;
The Research and Application Center of Gas Geology Yangquan Coal Industry Group Co. Ltd. Yangquan Xinyu Geotechnical Engineering Co. Ltd. Yangquan 045000 China;
School of Energy Resources China University of Geosciences (Beijing) 29 Xueyuan Road Beijing 100083 China Key Laboratory of Marine Reservoir Evolution and Hydrocarbon Enrichment Mechanism Ministry of Education Beijing 100083 China;
spontaneous water imbibition; gas-saturated rocks; mathematical model; relative permeability; capillary pressure; oil/gas reservoirs; petroleum engineering;
机译:用于油饱和砂岩加速冲刺自发水的数学模型:以分形方法从孔隙尺寸到核心尺度上升
机译:失水与浸泡时间:致密岩石中的自发吸水
机译:水分损失与浸泡时间:紧身岩石中的自发性吸收
机译:自发水浸入含气岩石中的表征
机译:通过自吸从混合湿岩石中采油。
机译:碳酸盐岩中排水和吸收的时间分辨同步X射线显微断层扫描数据集
机译:通过使用碳酸纤维盐水提高润湿性改变过程,提高油湿白云岩岩石中的水自发性吸收率
机译:在水湿基质中的并流和逆流吸收。季度报告,1996年1月1日至3月31日。裂缝/分层多孔介质中的注水。