张昕,男,辽宁抚顺人,讲师,2020年5月毕业于加拿大纽芬兰纪念大学机械工程专业,长期致力于研究湍流问题,以及与流体力学,热力学有关的科研教学工作。2008年9月至2012年6月,大学本科毕业于兰州大学化学工程与技术专业;2012年9月至2015年6月,硕士研究生毕业于北京化工大学化学工程与技术专业。2021年3月至今就职于山东石油化工学院,任石油工程学院储运工程系讲师。邮箱:2020023@sdipct.edu.cn。
近三年主持东营市科学发展基金“旋转流及管道流内高分子湍流减阻降解机理研究”;参与企业项目研发,“高矿化度水对压裂液减阻性能影响规律研究”,“石油工程技术服务-水力压裂现场施工参数优化设计研究”,“水力压裂技术服务”;带领学生参加国家级大学生创新创业项目两项,“高矿化度水对压裂液减阻性能影响“,“人工智能手段在多相流减阻方面的应用“。目前发表SCI论文若干篇,并为Physics of fluids等国际知名期刊审稿人。发表论文情况如下:
(1) Zhang, X., Duan, X., & Muzychka, Y. New mechanism and correlation for degradation of drag-reducing agents in turbulent flow with measured data from a double-gap rheometer, Colloid and Polymer Science, 2018, 296(4): 829-834.
(2) Zhang, X., Duan, X., & Muzychka, Y. Analytical upper limit of drag reduction with polymer additives in turbulent pipe flow, Journal of Fluids Engineering, 2018, 140(5): 051204.
(3) Zhang, X., Duan, X., & Muzychka, Y. Degradation of flow drag reduction with polymer additives—A new molecular view, Journal of Molecular Liquids, 2019, 292: 111360.
(4) Zhang, X., Duan, X., & Muzychka, Y. Drag reduction by linear flexible polymers and its degradation in turbulent flow: A phenomenological explanation from chemical thermodynamics and kinetics. Physics of Fluids, 2020, 32(1): 013101.
(5) Zhang, X., Duan, X., Muzychka, Y., & Wang. Z. Experimental correlation for pipe flow drag reduction using relaxation time of linear flexible polymers in a dilute solution. The Canadian Journal of Chemical Engineering, 2020, 98(3): 792-803.
(6) Zhang, X., Dai, X., Han, Q., Zhao, J., Jing, D., Liu, F., Li, L., Xin, Y. and Liu, K. (2021). Prediction and new insight for the drag reduction of turbulent flow with polymers and its degradation mechanism. The Journal of Physical Chemistry Letters, 12(30), 7201-7206.
(7) Zhang, X., Dai, X., Zhao, J., Jing, D., Liu, F., Li, L., Xin, Y. and Liu, K. (2021). Precise prediction of the drag reduction efficiency of polymer in turbulent flow considering diameter effect. Physics of Fluids, 33(9).
(8) Cheng, Z., Zhang, P., Wang, X., Song, X., Dai, X., Gao, L., Zhang, X., Zhang, G. and Lu, Y. (2023). Investigation of drag reduction by slurry-like drag-reducing agent in microtube flow using response surface methodology (RSM). Scientific Reports, 13(1), 22433.
(9) Cheng, Z., Zhang, P., Wang, X., Song, X., Dai, X., Gao, L., ... & Lu, Y. (2024). Drag reduction and degradation by sodium alginate in turbulent flow. Scientific Reports, 14(1), 16854.
