一、基本信息
张文通,男,1993年2月生,陕西咸阳人,讲师、工学博士、硕士生导师。
从事学科:石油与天然气工程、新能源科学与工程
电子邮箱:wentong0202@xsyu.edu.cn
二、个人经历
◆教育经历
◆工作经历
三、研究
◆研究方向和招生专业:
主要从事电场强化非常规油气资源高效开发、CO2封存与利用、地热尾水高效回灌的设计等方面的研究
◆招生专业
硕士招生专业:石油工程、新能源科学与工程、计算机、数学类专业均可名额2名
四、指导研究生
协助指导硕士生4名;
五、主讲课程
储层物理学(本科课程)、生物质能原理转化与技术(本科课程)、地热开发工程案例分析(本科课程)
六、社会兼职
◆期刊任职
SCI期刊《Frontiers in Energy Research》客座编辑
◆期刊审稿人
Chemical Engineering Journal、Journal of Petroleum Science and Engineering、Energy & Fuels、Journal of Natural Gas and Science Engineering、石油科学通报等期刊审稿人
七、科研成果
◆ 科研项目
[1]陕西省科技厅青年项目,直流电场强化致密砂岩储层CO2驱油气混相机理研究,2024.1-2025.12,在研,主持
[2]国家重点实验室课题,电场对页岩储层CO2驱油与封存中干酪根壁面润湿调控机理研究,2025.07-2027.07,在研,主持;
[3]陕西省博士后科研项目,电场强化CO2动用页岩纳米孔隙原油微观机理2023.8-2025.8,在研,主持
[4]省部级重点实验室课题,直流电场强化关中地区深层地热尾水回灌机理,2023.3-2025.10,在研,主持
[5]省部级重点实验室课题,陆相页岩气藏碳封存中CH4-CO2气体竞争吸附机理研究,2023.3-2025.7,结题,主持
[6]校企合作项目,致密砂岩气藏储层堵塞机理及解堵技术研究,2023.7-2023.12,结题,主持
[7]校企合作项目,LGF-80驱油压裂液体系在补能压裂中的适应性评价,2024.1-2024.12,结题,主持
[8]校企合作项目,注CO2对砂岩储层微纳米孔隙作用机制及其原油动用机理研究,2023.11-2024.8,结题,主研
[9]校企合作项目,调剖堵水剂性能测试实验技术服务,2024.9-2025.5,结题,主持
[10]校企合作项目,兴华11区块CO2驱储层物性变化规律实验,2025.5-2025.11,在研,主持
◆ 代表性论文
[1] Zhang, W*., Huang, H., Li, M., Ning, Z., Cheng, Z., Jia, Z., ... & Liu, F. (2024). Electric Field Control of CO2 Distribution in Kerogen Slit of Depleted Shale Gas Reservoirs: Implications for CO2 Sequestration. Energy & Fuels, 38(21), 20901-20912.
[2] Zhang, W*., Huang, H., Ning, Z., Cao, J., Ni, J., Jia, Z., ... & Lyu, F. (2023). Multiscale evolution observation of the pore structures of porous media under an electrokinetic treatment. Journal of Applied Geophysics, 219, 105247.
[3] Zhang, W*., Huang, H., Wen, F., Ren, L., Ning, Z., Jia, Z., ... & Lyu, F. (2023). Insights into the relationship between wettability and surface roughness in tight reservoirs from a pore-scale view: effect of electric field. Energy & Fuels, 37(8), 5867-5877.
[4] Zhang, W*., Ning, Z., Wang, Q., Cheng, Z., Lyu, C., Wang, Y., ... & Wang, H. (2023). Experimental study on the effects of an electric field on the pore characterization in anode, middle and cathode regions of tight sandstone samples. Geoenergy Science and Engineering, 223, 211500.
[5] Zhang, W*., Ning, Z., Gai, S., Zhu, J., Fan, F., Liu, Z., & Wang, H. (2022). Fast and effective observations of the pore structure of tight sandstones at the same location by utilizing AFM and CF-SEM. Journal of Petroleum Science and Engineering, 208, 109554.
[6] Zhang, W*., Ning, Z., Song, L., Zhu, J., Liu, Z., & Wang, H. (2021). Unveiling the changes in the molecular groups of tight sandstones in response to an electric Field. ACS omega, 6(43), 29126-29136.
[7] Zhang, W*., Ning, Z., & Wang, B. (2021). Experimental investigation of the variations in the pore structure of tight sandstones subjected to an electric field. Journal of Petroleum Science and Engineering, 204, 108690.
[8] Zhang, W*., Ning, Z., Cheng, Z., Wang, Q., Wu, X., & Huang, L. (2020). Experimental investigation of the role of DC voltage in the wettability alteration in tight sandstones. Langmuir, 36(40), 11985-11995.
[9] Zhang, W*., Ning, Z., Zhang, B., Wang, Q., Cheng, Z., Huang, L., ... & Shang, X. (2019). Experimental investigation of driving brine water for enhanced oil recovery in tight sandstones by DC voltage. Journal of Petroleum Science and Engineering, 180, 485-494.
[10] Zhang, W*., Wang, Q., Ning, Z., Zhang R., Huang L., & Cheng Z. (2018). Relationship between the stress sensitivity and pore structure of shale. Journal of Natural Gas Science and Engineering, 59, 440-451.
◆ 学术专著
1. 张文通,宁正福,《绿电提高致密砂岩采收率》,中国石化出版社,2024
