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教育经历 2012-01至2016-12， 美国德克萨斯大学奥斯汀分校， 石油工程， 博士研究生 2009-09至2012-03， 美国加利福尼亚大学戴维斯分校， 材料科学与工程， 硕士研究生 2004-08至2009-07， 清华大学， 材料科学与工程， 大学本科 个人概况 个人简介： 博士，1986年4月出生。研究领域：储层伤害评估与保护，储层改造高效分段技术与工具，以及致密油气藏渗流规律与提高采收率等研究内容。 所属系所：储层改造与开发工程研究所 联系方式： liangtianboo@163.com; btliang@cup.edu.cn 期刊文章： 【第一作者】 [1] Liang, T., Zhao, X., Yuan, S., Zhu, J., Liang, X., Li, X., Zhou, F., 2021. Surfactant-EOR in Tight Oil Reservoirs: Current Status and a Systematic Surfactant Screening Method with Field Experiments. J. Pet. Sci. Eng. 196. https://doi.org/10.1016/j.petrol.2020.108097 [2] Liang, T., Wei, D., Zhou, F., Li, X., Yuan, L., Wang, B., Lu, J., 2020. Field Experiments on Multi-Stage Chemical Diversion in Low-Permeability HPHT Reservoirs. J. Pet. Sci. Eng. 187. https://doi.org/10.1016/j.petrol.2019.106738 [3] Liang, T., Xu, K., Lu, J., Nguyen, Q., DiCarlo, D., 2020. Evaluating the Performance of Surfactants in Enhancing Flowback and Permeability after Hydraulic Fracturing through a Microfluidic Model. SPE J. 25, 268–287. https://doi.org/10.2118/199346-PA [4] Liang, T., Li, Q., Liang, X., Yao, E., Wang, Y., Li, Y., Chen, M., Zhou, F., Lu, J., 2018. Evaluation of Liquid Nanofluid as Fracturing Fluid Additive on Enhanced Oil Recovery from Low-Permeability Reservoirs. J. Pet. Sci. Eng. 168, 390–399. https://doi.org/10.1016/j.petrol.2018.04.073 [5] Liang, T., Luo, X., Nguyen, Q., DiCarlo, D.A., 2018. Computed-Tomography Measurements of Water Block in Low-Permeability Rocks: Scaling and Remedying Production Impairment. SPE J. 23, 762–771. https://doi.org/10.2118/189445-PA [6] Liang, T., Shao, L., Yao, E., Zuo, J., Liu, X., Zhang, B., Zhou, F., 2018. Study on Fluid-Rock Interaction and Reuse of Flowback Fluid for Gel Fracturing in Desert Area. Geofluids. https://doi.org/10.1155/2018/8948961 [7] Liang, T., Zhou, F., Shi, Y., Liu, X., Wang, R., Li, B., Li, X., 2018. Evaluation and Optimization of Degradable-Fiber-Assisted Slurry for Fracturing Thick and Tight Formation with High Stress. J. Pet. Sci. Eng. 165, 81–89. https://doi.org/10.1016/j.petrol.2018.02.010 [8] Liang, T., Achour, S.H., Longoria, R.A., DiCarlo, D.A., Nguyen, Q.P., 2017. Flow Physics of How Surfactants Can Reduce Water Blocking Caused by Hydraulic Fracturing in Low Permeability Reservoirs. J. Pet. Sci. Eng. 157, 631–642. https://doi.org/10.1016/j.petrol.2017.07.042 [9] Liang, T., Gu, F., Yao, E., Zhang, L., Yang, K., Liu, G., Zhou, F., 2017. Formation Damage due to Drilling and Fracturing Fluids and Its Solution for Tight Naturally Fractured Sandstone Reservoirs. Geofluids. https://doi.org/10.1155/2017/9350967 [10] Liang, T., Longoria, R.A., Lu, J., Nguyen, Q.P., DiCarlo, D.A., 2017. Enhancing Hydrocarbon Permeability After Hydraulic Fracturing: Laboratory Evaluations of Shut-Ins and Surfactant Additives. SPE J. 22, 1,011-1,023. https://doi.org/10.2118/175101-PA [11] Liang, T., Yang, Z., Zhou, F., Liu, Z., Qu, H., Yang, K., Sun, J., 2017. A New Approach to Predict Field-Scale Performance of Friction Reducer Based on Laboratory Measurements. J. Pet. Sci. Eng. 159, 927–933. https://doi.org/10.1016/j.petrol.2017.09.076 [12] Liang, T., Zhou, F., Lu, J., DiCarlo, D., Nguyen, Q., 2017. Evaluation of Wettability Alteration and IFT Reduction on Mitigating Water Blocking for Low-Permeability Oil-Wet Rocks after Hydraulic Fracturing. Fuel 209, 650–660. https://doi.org/10.1016/j.fuel.2017.08.029 [13] 梁天博, 马实英, 魏东亚, 等. 低渗透油藏水锁机理与助排表面活性剂的优选原则[J]. 石油学报, 2020, 41(06): 745–752. 【非一作筛选】 [1] Wang, B., Zhou, F., Yang, C., Wang, D., Yang, K., Liang, T., 2020. Experimental Study on Injection Pressure Response and Fracture Geometry during Temporary Plugging and Diverting Fracturing. SPE J. 25, 573–586. https://doi.org/10.2118/199893-PA [2] Zhou, F., Su, H., Liang, X., Meng, L., Yuan, L., Li, X., Liang, T., 2019. Integrated Hydraulic Fracturing Techniques to Enhance Oil Recovery from Tight Rocks. Pet. Explor. Dev. 46, 1065–1072. https://doi.org/10.1016/S1876-3804(19)60263-6 [3] Xu, K., Liang, T., Zhu, P., Qi, P., Lu, J., Huh, C., Balhoff, M., 2017. A 2.5-D Glass Micromodel for Investigation of Multi-Phase Flow in Porous Media. Lab. Chip 17, 640–646. https://doi.org/10.1039/c6lc01476c [4] Longoria, R.A., Liang, T., Huynh, U.T., Nguyen, Q.P., DiCarlo, D.A., 2017. Water Blocks in Tight Formations: The Role of Matrix/Fracture Interaction in Hydrocarbon-Permeability Reduction and Its Implications in the Use of Enhanced Oil Recovery Techniques. SPE J. 22, 1,393-1,401. https://doi.org/10.2118/185962-PA 【博士论文】 Water Block from Hydraulic Fracturing in Low Permeability Rocks: Experimental Studies on Causes and Potential Mitigation Methods. The University of Texas at Austin, 2016. 下载地址：https://repositories.lib.utexas.edu/handle/2152/45848 SPE会议文章： [1] Liang, T., Achour, S.H., Longoria, R.A., DiCarlo, D.A., Nguyen, Q.P., 2016. Identifying and Evaluating Surfactant Additives to Reduce Water Blocks after Hydraulic Fracturing for Low Permeability Reservoirs. Presented at the SPE Improved Oil Recovery Conference, Society of Petroleum Engineers. https://doi.org/10.2118/179601-MS [2] Liang, T., Longoria, R.A., Lu, J., Nguyen, Q.P., DiCarlo, D.A., 2015. Enhancing Hydrocarbon Permeability After Hydraulic Fracturing: Laboratory Evaluations of Shut-ins and Surfactant Additives. Presented at the SPE Annual Technical Conference and Exhibition, Society of Petroleum Engineers. https://doi.org/10.2118/175101-MS [3] Liang, T., Longoria, R.A., Lu, J., Nguyen, Q.P., DiCarlo, D.A., Huynh, U.T., 2015. The Applicability of Surfactants on Enhancing the Productivity in Tight Formations. Presented at the SPE/AAPG/SEG Unconventional Resources Technology Conference. https://doi.org/10.15530/URTEC-2015-2154284 [4] Liang, X., Zhou, F., Liang, T., Wang, R., Su, H., Wang, X., 2020. Application of Liquid Nanofluid during Hydraulic Fracturing in Tight Reservoirs. Presented at the SPE/AAPG/SEG Unconventional Resources Technology Conference. https://doi.org/10.15530/urtec-2020-2899 [5] Zhao, X., Liang, T., Zhou, F., Yuan, S., Liang, X., 2020. Adsorption and Dispersion of Diluted Microemulsions in Tight Rocks. Presented at the SPE/AAPG/SEG Unconventional Resources Technology Conference. https://doi.org/10.15530/urtec-2020-2101 [6] Yuan, S., Liang, T., Zhou, F., Liang, X., Yu, F., Li, J., 2019. A Microfluidic Study of Wettability Alteration Rate on Enhanced Oil Recovery in Oil-Wet Porous Media. Presented at the Abu Dhabi International Petroleum Exhibition & Conference, Society of Petroleum Engineers. https://doi.org/10.2118/197715-MS [7] Longoria, R.A, Liang, T., Nguyen, Q.P., DiCarlo, D.A., 2015. When Less Flowback Is More: A Mechanism of Permeability Damage and its Implications on the Application of EOR Techniques. Presented at the SPE/AAPG/SEG Unconventional Resources Technology Conference. https://doi.org/10.15530/URTEC-2015-2154266 授权发明专利（第一发明人）： [1] 一种模拟致密油藏微观模型制作方法（201810839747.4） [2] 一种基于极限限流设计的压裂方法及系统（201910661839.2） [3] 一种致密储层均匀改造方法及系统（201910661211.2） [4] 一种碳酸盐岩油气藏的酸化方法（201810812123.3）