多尺度传热传质机理与调控

微环境热湿调控技术

复合膜气体选择性输运与分离特性

基于分子动力学的材料性能预测与优化​​​​​​​

​​​​​​​2023至今, 西安交通大学，人居学院，助理教授

2018-2019，新加坡南洋理工大学，机械与宇航工程学院，博士联合培养
​​​​​                     导师：Assoc. Prof. Fei duan, Dr. Jincai Su

2017-2023，西安交通大学，地球与人居环境科学及工程，工学博士

                     导师：金立文教授

2013-2017，西安交通大学，建筑环境与能源应用工程/会计学，工学学士

Discover Energy期刊编委
​​​​​​​英国皇家化学学会（RSC）会员
国际能源与建筑环境学会（ISEBE）会员
工程热物理学会（CSET）会员

国家自然科学基金（青年项目），52406109，压力驱动复合膜除湿：跨尺度动态传质机理及定向性能调控研究，2025-01至2027-12，主持。
​​​​​​​
中国博士后科学基金特别资助，2025T1801864，复合亲/疏水异质结构膜的CO2-水蒸气双效分离机理及微相调控研究，2025-09至2027-09，主持。

中国博士后科学基金面上资助，2024M762588，低压差驱动下除湿复合膜的湿分迁移机理及性能强化机制，2025-01至2026-12，主持。

国家资助博士后研究人员计划，GZC20232076, 集成膜除湿-蒸发冷却系统的热湿耦合传递特性研究, 2024-01至2026-12，主持。

中央高校基本科研业务费项目，xzy012024075，膜基除湿冷却集成系统的热力学研究，2024-01至2025-12，主持。

陕西省博士后基金，2023BSHEDZZ51，有机-无机复合膜微相调控机制及其除湿特性研究，2023-09至2026-09，主持。

能源基金会（美国）北京办事处低碳城市项目，G-2211-34282，新建公共建筑全电气化设计技术研究，2022-09至2024-09，参与。

西安交通大学基本科研业务费自由探索与创新项目，xyz022021012，水蒸气在中空纤维膜内微观迁移机理及膜组件除湿性能研究，2022-01至2023-12，主持。

陕西省自然科学基础研究计划，2021JQ-048，蒸发冷却与中空纤维膜溶液除湿耦合降温降湿特性研究，2021.01至2022.12，参与。

陕西省重点研发计划，2020SF-396，基于被动式蒸发冷却建筑围护结构与通风降温系统的绿色建筑技术研究，2020-01至2022.05，参与。

国家重点研发计划，2018YFD1100201-04，绿色宜居村镇建设模式与发展战略研究，2018-12至2022-12，参与。

国家重点研发计划，2018YFF030030406，冬奥雪上场馆能耗和环境关联的动态模拟预测理论与应用研究，2018-08至2020-12，参与。

国家科技计划项目，2013FY112500，典型城市人居环境质量综合调查与城市气候环境图集编制，2013-05至2018-05，参与。

2025年度 ​​​​​​​

1. Liu Y L, Fan J B, Jin L W*, ​​​​​​​et al. Experimental study on the transient behavior and energy consumption of pressure-driven membrane dehumidification process [J]. Applied Thermal Engineering, 2025, 265,125644.

2. Liu Y L, Fan J B, Jin L W*, ​​​​​​​et al. Optimizing membrane dehumidification performance: A comprehensive review of materials, modules and system [J]. Journal of Environmental Chemical Engineering, 2025, 13,115990.

3. Qiu J Y, Liu Y L*, ​​​​​​​ Jin L W*, ​​​​​​​et al. Experimental study of environmental factors affecting particle infiltration in buildings. Journal of Building Engineering, 2025, 105, 112408.

​​​​​​​4. Liu Y L, Fan J B, Jin L W*, ​​​​​​​et al. Flow and mass transfer characteristics within elliptical fiber membrane bundles for air dehumidification. International Communications in Heat and Mass Transfer, 2025, 165,10905.

​​​​​​​​​​​​​​​​​​​​​​2024年度以前

1. Fan J B, Liu Y L*, ​​​​​​​, Jin L W*, ​​​​​​​et al.​​​​​​​ Heating Performance and Energy Efficiency Analysis of Air-Source Heat Pumps in Public Buildings Across Different Climate Zonings. Green Energy and Fuel Research, 2024, 1, 39-52.

​​​​​​​2. Liu Y L, Chai J C, Jin L W*, et al. Multi-objective optimization of air dehumidification membrane module based on response surface method and genetic algorithm [J]. Energy Reports, 2023, 9: 2201-2212.

3. Liu Y L, Li N, Jin L W*, et al. A review on the morphology and material properties of gas separation membrane: molecular simulation [J]. Membranes, 2022, 12, 1274.

4. Liu Y L, Cui X, Jin L W*, et al. A molecular level based parametric study of transport behavior in different polymer composite membranes for water vapor separation [J]. Applied Energy, 2022, 326: 120007.

5. Liu Y L, Su J C, Jin L W*, et al. Molecular simulation of enhanced separation of humid air components by GO-PVA nanocomposite membranes under differential pressure [J]. Physical Chemistry Chemical Physics, 2022, 24: 16442-16452.

6. Liu Y L, Cui X, Jin L W*, et al. Effects of fiber bundle nonuniformity on dehumidification performance and energy efficiency of pressure-driven membrane modules[J]. International Journal of Energy Research. 2022, 1-15.

7. Liu Y L, Zhang S C, Jin L W*, et al. Flow behavior and mass transfer of humid air across fiber membrane bundles[J]. Applied Thermal Engineering, 2022, 207: 118200.

8. Liu Y L, Cui X, Jin L W*, et al. Analysis of pressure-driven water vapor separation in hollow fiber composite membrane for air dehumidification[J]. Separation and Purification Technology, 2020, 251:117334.

9. Liu Y L, Wei Y Y, Jin L W*, et al. Surface-modified PVA/PVDF hollow fiber composite membrane for air dehumidification[J]. Journal of Materials Science, 2020, 55: 5415-5430.

10. Liu Y L, Jin L W, Zhang L Y*, et al. Experimental and Numerical Study on Heat and Mass Transfer of Cross-Flow Liquid Desiccant Dehumidifier/Regenerator[J]. Heat Transfer Engineering, 2020, 41: 9-10, 867-881.

11. Yan W C, Cui X, Liu Y L, et al. Evaporative cooling performance prediction and multi-objective optimization for hollow fiber membrane module using response surface methodology[J]. Applied Energy, 2022, 325: 119855.

12. Yan W C, Cui X, Liu Y L, et al. Performance evaluation and parameter sensitivity analysis of a membrane-based evaporative cooler with built-in baffles[J]. Applied Thermal Engineering, 2022, 208: 118228.

13. Cui X, Yan W C, Liu Y L, et al. Performance analysis of a hollow fiber membrane-based heat and mass exchanger for evaporative cooling[J]. Applied Energy, 2020, 271: 115238.

14. Liu Y L, Su J C , Li N*, et al. Multiple-factor analysis of dehumidification performance and flow resistance for the cross-flow membrane module based on orthogonal test[J]. IOP Conference Series Earth and Environmental Science, 2022, 1074: 012020. (EI)

15. Liu Y L, Su J C, Jin L W*, et al. Nanoparticles filled PVA/PVDF hollow fiber membrane towards enhanced performance for air dehumidification[J]. IOP Conference Series Earth and Environmental Science, 2020, 463: 012096. (EI)

16. Liu Y L, Jin L W, Su J C*, et al. Development of robust energy-efficient membrane dehumidifier for indoor air humidity control[J]. IOP Conference Series Earth and Environmental Science, 2019, 268: 012146. (EI)

17. Yan W C, Thiam H S, Meng X Z, Liu Y L, et al. Experimental and numerical investigation of a counter-flow hollow fiber membrane-based evaporative cooler[J]. IOP Conference Series Earth and Environmental Science, 2022, 268: 012017. (EI)

18. Cui X, Liu Y H, Liu Y L, et al. Studying the performance of a liquid desiccant indirect evaporative cooling system[J]. Energy Procedia, 2019, 158: 5659-5665. (EI)

19. Cui X, Jia G S, Liu Y L, et al. Performance analysis of a counter-flow indirect evaporative cooling system[J]. IOP Conference Series Earth and Environmental Science, 2019, 268: 012145. (EI)

20. Qin S Y, Gao S, Cao Y, Liu Y L, et al. Research on Design and Operation Methods of Radiant Panel with Fresh Air System, IOP Conference Series Earth and Environmental Science, 2019, 268: 012076. (EI)

21. 白青松，郭增旭，刘亦琳，杨肖虎，金立文. 通孔金属泡沫强化蓄冰实验研究[J]. 西安交通大学学报. 2018.52(01): 20-25. (EI)