研究领域
高含水油藏化学驱提高采收率理论与应用
复杂油气藏高效开发与提高采收率技术
科研项目
[1] 十三五国家科技重大专项:高含水油田提高采收率新技术-优势渗透通道识别与表征及控制无效循环技术-高含水后期微观渗流规律研究,子课题负责人;
[2] 十三五国家科技重大专项:海上稠油高效开发新技术-海上油田化学驱油技术-海上油田微观非均相驱油技术研究,子课题负责人;
[3] 十二五国家科技重大专项:低渗透油田弹性驱替界限与开发后期井网优化调整技术研究,子课题负责人;
[4] 国家科技支撑计划:CO2地质封存与驱油安全监测技术研究,课题负责人;
[5] 国家自然基金项目:三元复合驱微观剩余油赋存状态及形成机理,负责人;
[6] 国家自然基金项目:聚驱后二元复合驱剩余油分布及启动机制研究,负责人;
[7] 正韵律油藏泡沫驱机理研究,中石化课题,负责人;
[8] 低渗油藏空气/氮气泡沫驱油机理及油藏工程研究,中石油课题,负责人;
代表性研究成果
[1] Optimization of polymer flooding design in conglomerate reservoirs. Journal of Petroleum Science & Engineering, 2017.(SCI收录)
[2] Comparison of Strong-Alkali and Weak-Alkali ASP-Flooding Field Tests in Daqing Oilfield. SPE Production & Operations, 2017. SPE-179661-PA. (SCI收录)
[3] ASP Flooding: Theory and Practice Progress in China. Journal of Chemistry,2017. (SCI 收录).
[4] Pore-scale investigation of residual oil displacement in surfactant–polymer flooding using nuclear magnetic resonance experiments. Petroleum Science, 2016,13: 91-99. (SCI收录)
[5] Fracture and vug characterization and carbonate rock type automatic classification using X-ray CT images. Journal of Petroleum Science & Engineering, 2017, 153:88-96.(SCI收录)
[6] Petrophysical Properties Analysis of a Carbonate Reservoir with Natural Fractures and Vugs using X-ray Computed Tomography. Journal of Natural Gas Science & Engineering, 2015, 28:215-225. (SCI收录)
[7] The application of laser confocal methodin microscopic oil analysis. Journal of Petroleum Science and Engineering, 2014,120,50-60. (SCI收录)
[8] Characterization of Remaining Oil after Polymer Flooding by Laser Scanning Confocal Fluorescence Microscopy. Journal of Dispersion Science and Technology,2014,35(7),898-906.(SCI收录).
[9] 9.A design method of optimising compatibility of polymer flooding system with reservoir, International Journal of Oil, Gas and Coal Technology. 2016,13 (2): 159 -169. (SCI收录)