机译:裂缝性粘性油藏低温生产的溶剂注入策略
Department of Petroleum and Geosystems Engineering, The University of Texas at Austin, 200 East Dean Keeton Street, Stop C0300, Austin, Texas 78712, United States,Shell International Exploration and Production, 200 N. Dairy Ashford, Houston, TX 77077, USA;
Department of Petroleum and Geosystems Engineering, The University of Texas at Austin, 200 East Dean Keeton Street, Stop C0300, Austin, Texas 78712, United States;
Shell Technology Centre Calgary, Shell Canada Ltd., P. O. Box 100, STN M, Calgary, Alberta, Canada T2P 2H5;
Shell Technology Centre Calgary, Shell Canada Ltd., P. O. Box 100, STN M, Calgary, Alberta, Canada T2P 2H5;
Shell Technology Centre Calgary, Shell Canada Ltd., P. O. Box 100, STN M, Calgary, Alberta, Canada T2P 2H5;
Department of Petroleum and Geosystems Engineering, The University of Texas at Austin, 200 East Dean Keeton Street, Stop C0300, Austin, Texas 78712, United States;
机译:裂缝性油藏中的粘性油采收和原地脱沥青:第1部分。溶剂注入速率的影响
机译:粘性油藏溶剂辅助热采过程中注入压力的最优运行策略
机译:在含稠油的天然裂缝油藏中用溶剂进行低温空气注入:基质/裂缝性质和温度对采收率的影响
机译:溶剂辅助热过程注射策略,用于油砂储层最佳沥青生产
机译:在极粘性流体的颗粒级位移下,将溶剂注入重油储层的扫描效率。
机译:利用凝胶颗粒和HPAM / Cr3 +系统堵塞裂缝以提高裂缝型油藏采油量的新方法
机译:热溶剂辅助重力排放在天然骨折的重油储层中:一种确定最佳溶剂喷射温度的新模型和方法