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1. Experimental study on the mechanism of adsorption-improved imbibition in oil-wet tight sandstone by a nonionic surfactant for enhanced oil recovery
[J] .
Yong-Peng Sun,
Yan Xin,
Fang-Tao Lvu,
石油科学(英文版)
.
2021,第004期
2. Co-optimization of carbon dioxide storage and enhanced oil recovery in oil reservoirs using a multi-objective genetic algorithm (NSGA-Ⅱ)
[J] .
SAFARZADEH Mohammad Amin,
MOTAHHARI Seyyed Mahdia
石油科学(英文版)
.
2014,第003期
3. Experimental investigation of enhancement of carbon dioxide foam stability, pore plugging, and oil recovery in the presence of silica nanoparticles
[J] .
Abdul Rahim Risal,
Muhammad A.Manan,
Nurudeen Yekeen,
石油科学(英文版)
.
2019,第002期
4. Carbon Sequestration through CO2 Foam-Enhanced Oil Recovery: A Green Chemistry Perspective
[J] .
Jennifer A. Clark,
Erik E. Santiso
工程(英文)
.
2018,第003期
5. Carbon Sequestration through CO2 Foam-Enhanced Oil Recovery:A Green Chemistry Perspective
[J] .
Jennifer A.Clark,
Erik E.Santiso
工程(英文)
.
2018,第003期
6. USING CO2-SOLUBLE SURFACTANTS TO IMPROVE MOBILITY CONTROL DURING CO2 ENHANCED OIL RECOVERY VIA THE IN-SITU FORMATION OF CO2-IN-BRINE FOAMS
[J] .
Robert Enick,
William J. McLendon,
Peter Koronaios,
American Chemical Society, Division of Fuel Chemistry, Preprints
.
2012,第1期
机译:通过CO2-IN-BRINE FOAM的原位形成,在CO2强化采油过程中使用CO2-可溶性表面活性剂来改善流动性控制 7. Silica nanoparticles to stabilize CO_2-foam for improved CO_2 utilization: Enhanced CO_2 storage and oil recovery from mature oil reservoirs [J] . Rognmo A. U., Heldal S., Ferno M. A. Fuel . 2018,第MARa15期机译:二氧化硅纳米颗粒可稳定CO_2泡沫以提高CO_2的利用率:增强了CO_2的储存和从成熟油藏中的采油率 8. Core Flooding of Complex Nanoscale Colloidal Dispersions for Enhanced Oil Recovery by in Situ Formation of Stable Oil-in-Water Pickering Emulsions [J] . Yoon Ki Youl, Son Han Am, Choi Sang Koo, Energy & fuels . 2016,第4期机译:复杂的纳米级胶态分散体的岩心驱替,可通过原位形成稳定的水包油采摘乳剂来提高采收率 9. USING CO2-SOLUBLE SURFACTANTS TO IMPROVE MOBILITY CONTROL DURING CO2 ENHANCED OIL RECOVERY VIA THE IN-SITU FORMATION OF CO2- IN-BRINE FOAMS [C] . Robert Enick, William J. McLendon, Peter Koronaios ACS National Meeting . 2012机译:使用CO2-可溶性表面活性剂通过原位形成CO 2 - 盐水泡沫的原位形成改善CO 2期间的迁移率控制 10. An Analysis of the Distribution and Economics of Oil Fields for Enhanced Oil Recovery-Carbon Capture and Storage. [D] . Hall, Kristyn Ann. 2012机译:分析油田的分布和经济状况,以提高采收率-碳的捕集和封存。 11. Natural Halloysites-Based Janus Platelet Surfactants for the Formation of Pickering Emulsion and Enhanced Oil Recovery [O] . Lecheng Zhang, Qun Lei, Jianhui Luo, -1机译:天然基于埃洛石的Janus血小板表面活性剂用于形成Pickering乳液并提高采油率 12. Carbon Storage and Enhanced Oil Recovery in Pennsylvanian Morrow Formation Clastic Reservoirs: Controls on Oil–Brine and Oil–CO2 Relative Permeability from Diagenetic Heterogeneity and Evolving Wettability [O] . Lindsey Rasmussen, Tianguang Fan, Alex Rinehart, 2019机译:宾夕法尼亚人明天形成碎屑储层的碳储存和增强的储油:对油盐水和油 - 二氧化碳的控制来自成岩异质性和不断变化的润湿性的相对渗透性 13. Improved CO2 enhanced oil recovery-Mobility control by in-situ chemical precipitation. Final report. [R] . Ameri, S., Aminian, K., Wasson, J. A., 1991机译:改善二氧化碳提高采收率 - 通过原位化学沉淀控制流动性。总结报告。 |
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