教育背景与工作经历
教育背景
2011/09-2015/06,大连理工大学,热能与动力工程,学士
2015/09-2017/06,大连理工大学,动力机械及工程,硕士
2017/09-2021/06,大连理工大学,能源与环境工程,博士
工作经历
2021/12-2023/12,大连理工大学宁波研究院,在职博士后
2021/10- 至今, 上海理工大学,能源与动力工程学院,讲师
代表性研究成果
科研项目
(1)国家自然科学基金委:青年科学基金项目(C类),2026.1-2028.12,主持
(2)上海市科学技术委员会:启明星项目(扬帆专项),2023.4-2026.3,主持
(3)中国博士后科学基金会:中国博士后科学基金面上资助,2022.6-2023.10,主持
(4)海洋能源利用与节能教育部重点实验室开放基金,2023.01-2024.12,主持
(5)国家科技重大专项子课题:深水水合物堵塞监测与检测技术,2016.6-2020.12,参与
(6)大连市科技局:重点学科(研究方向)重大课题,油气管道水合物生成机理与堵塞检测技术,2019.1-2021.12,参与
代表性论文
[1] J. Chen, L. Yang*, Z. Liu*, et al. Cascaded variable step LMS filters fused by wave velocity estimation model for leakage localization of water supply pipeline. Applied Acoustics, 241(2026): 110981.
[2] X. Liu, Z. Liu*, N. Wei, et al. Molecular dynamics simulation on hydrate-based hydrogen storage: A review from the perspective of hydrate nucleation and growth. Applied Energy, 396(2025): 126346.
[3] Z. Liu*, S. Shen, Yan. J, et al. Small-Leak identification method based on infrasound and VMD–HMM for pipelines. IEEE Sensors Journal, 25(2025): 17413-17421.
[4] Z. Liu, S. Ma, Z. Wu, L. Wang, Z. Liu*, et al. Investigation of hydrate formation and slurry flow visualization in Oil-gas–water multiphase systems. Chemical Engineering Journal, 499 (2024): 156575.
[5] Z. Liu*, S. Shen, B. Dou, et al. Visual study of hydrate particles agglomeration and rolling characteristic in gas-oil-water phase using a flow loop. Fuel, 377 (2024): 132830.
[6] Z. Liu*, X. Liu, et al. Hydrate formation and blockage in inlet/outlet and slope pipes of gas−water−oil transportation pipeline. Energy&Fuels, 38 (2024), 18489-18501.
[7] Z. Liu, S. Ma, Z. Wu, Z. Liu*, et al. Investigation of flow and viscosity characteristics of hydrate slurries within a visual-loop system. Energy, 289 (2024): 129929.
[8] Z. Liu*, X. Liu, M. Yang, et al. Thermodynamic and kinetic properties of gas hydrate phase transition from formation to decomposition with applications: A review. Journal of Environmental Chemical Engineering, 12 (2024): 114614.
[9] Z. Liu, Z. Liu, J. Wang, M. Yang, et al. Hydrate blockage observation and removal using depressurization in a fully visual flow loop. Fuel, 294 (2021): 120588.
[10] Z. Liu, B. Chen, C. Lang, X. et al. An improved model for predicting the critical velocity in the removal of hydrate particles from solid surfaces. Chemical Physics Letters, 779 (2021): 138832.
[11] X. Guo, K. Shi, D. Guan, X. Lv, Q. Li, H. Dong, J. Zhao, L. Yang*, Z. Liu*. Behaviors of CH4 hydrate formation in cold seeps with underlying gas plume. Fuel, 304 (2021): 121364.
[12] B. Chen, Z. Liu, H. Sun, et al. The synthetic effect of traditional-thermodynamic-factors (temperature, salinity, pressure) and fluid flow on natural gas hydrate recovery behaviors. Energy, 233 (2021): 121147.
[13] Z. Liu, J. Fu, M. Yang, et al. New model for particle removal from surface in presence of deformed liquid bridge.Journal of Colloid and Interface Science, 562 (2020): 268-272.
[14] Z. Liu, M. Farahani, M. Yang, et al. Hydrate slurry flow characteristics influenced by formation, agglomeration and deposition in a fully visual flow loop. Fuel, 277 (2020): 118066.
[15] Z. Liu, Q. Li, J. Fu, et al. Data on the critical condition of silica and ice particles removal from surface. Data in brief, 29 (2020): 105363.
[16] Z. Liu, M. Yang, H. Zhang, et al. A high-pressure visual flow loop for hydrate detection and observation. Review of Scientific Instruments, 90(7) (2019): 074102.
[17] Z. Liu, M. Yang, Y. Liu, et al. Analyzing the Joule-Thomson effect on wellbore in methane hydrate depressurization with different back pressure. Energy Procedia, 158 (2019): 5390-5395.
授权专利
[1] FULLY VISUAL FLOW LOOP SYSTEM FOR STUDYING HYDRATE BLOCKAGE, 2021.9.28, America, 2020096452
[2] 一种应用于流动安全实验循环系统的盲管装置,2020.11.23,中国,201811105523.7
[3] 一种应用于研究水合物堵塞的全可视化循环管路系统,2020.08.07,中国,201811104139.5
[4] 一种应用于循环管路流动安全的注入与排放回收系统,2020.09.29,中国,201811105501.0
[5] 一种监测水合物堵塞的全可视化循环管路系统,2020.09.25,中国,201811105525.6
荣誉与奖励
上海市科委青年科技英才扬帆计划
上海理工大学青年教师培养“思学计划”主讲课程
【本科生课程】 新能源技术;太阳能储存技术;科技英语阅读与写作;大学生创新创业启蒙及实训
【研究生课程】 物理化学
