黎念,博士,副研究员,浙江大学硕士生导师,研究方向为能量回收与分离、低品位及清洁能源利用等。近五年来主持国家自然科学基金面上项目、青年基金项目、宁波市自然科学基金项目和横向项目等多项,在International Communications in Heat and Mass Transfer、Industrial & Engineering Chemistry Research、Physics of Fluids等相关领域重要国际期刊上发表SCI论文20余篇,申请/授权发明专利20余项。兼任浙江省工程热物理学会理事、浙江省制冷学会中央空调技术协作委员会主任助理。
教育背景:
2012.09~2018.12,浙江大学,能源工程学院,制冷及低温工程,硕博连读
2015.12~2016.06,伊利诺伊大学香槟分校,机械工程学院,制冷及低温工程,访问学者
2008.09~2012.07,天津大学,机械工程学院,热能与动力工程,工学学士
工作经历:
2019.04~2023.12,浙江大学宁波科创中心,浙江大学宁波研究院能源分院,助理研究员
浙江大学,能源学院(兼聘),助理研究员
2023.12~至今, 浙江大学宁波科创中心,浙江大学宁波研究院能源分院,副研究员
浙江大学,能源学院(兼聘),副研究员
科研情况
1. 项目研究
1.氢气及其混合物与涡流管耦合特性底层机制及氢能系统性能优化策略研究(2024.01~2027.12),国家自然科学基金面上项目,项目负责人.
2.基于流场结构协同度指标的涡流管模型构建与多参数协调优化策略 (2021.01~2023.12) ,国家自然科学基金青年基金,项目负责人.
3.新型掺氢天然气超音速涡流热管理与分离装置基础问题研究(2024.06~2027.05),宁波市自然科学基金重点项目,项目负责人.
4.加氢站新型预冷加氢系统运行机制与调控机理研究(2022.09~2024.08),宁波市自然科学基金,项目负责人.
5.新能源汽车综合热管理系统集成关键技术开发项目(2022.12~2024.11),一般横向项目,项目负责人.
2. 论文、著作
[1] Li, N., Wang, X.H., Gao, N.*, Chen, G.M. Exploring the relationship between dimensionless calorimetric parameter and transport properties of saturated gases. Physics of fluids. 2025, 37, 037158.
[2] Li, N., Wang, X.H., Jin, S.H., Gao, N.*, Chen, G.M. Quasi-universally modeling of interfacial properties for saturated liquids using a dimensionless calorimetric parameter. Fluid Phase Equilibria. 2025, 588, 114237.
[3] Shuyuan Jia, Nian Li*, Liu Shuang, Xu Zhang, Fujing Tang, JieYu Wu, Xiangguo Xu, Numerical simulation and experimental study of a novel emergency cooling system for thermal runaway propagation of power battery pack. Applied Thermal Engineering. 126344.
[4] Chen, G.M., Jiang, G.N., Tang, L.M., Li, N.* Quantitative Analysis of Energy Transfer and Separation in Vortex Tubes: Factors and Empirical Insights. International Communications in Heat and Mass Transfer. 2024, 158, 107907.
[5] Li, N., Wang, X.H., Gao, N.*, Chen, G.M. A quantitative structure-property relationship model for surface tension based on Artificial Neural Network. International Journal of Thermophysics. 2024, 45,106.
[6] Chen, G.M., Jiang, G.N., Tang, L.M., Li, N.* Experimental study on the influence of inlet pressure on the flow parameters at the reverse flow boundary of vortex tube and its relation with energy separation performance. Experimental Thermal and Fluid Science. 2024,156, 111211.
[7] Wang, Z., Li, N.*, Zhong, J.L., Gao, N., Guo X.J., Chen, G.M. Machine learning assisted analysis and prediction for the thermal behavior of various working fluids in the vortex tube. Asia-Pacific Journal of Chemical Engineering. 2023, e3005.
[8] Li, N., Wang, X.H., Chen, G.M., Gao, N. Linking thermal conductivity and self-diffusion coefficient with a simple dimensionless calorimetric parameter for saturated liquids. Industrial & Engineering Chemistry Research. 2022, 61, 41, 15414-15422.
[9] Li, N., Ma, S.N., Jiang, G.N., Hao, X.Y., Chen, G.M., Gao, N.* A performance optimization method based on the flow field structure of the vortex tubes with ANN. Thermal Science and Engineering Progress, 2023, 37, 101590.
[10] Ma, S.N., Wang, Q.Q., Chen, K., Yuan, W.Y., Gao, X., Li, N.*, Gao, N. Biomass waste derived solar evaporator for efficient and low-cost water evaporation. Energy Technology. 2022. 2200900.
[11] Li, N., Jiang, G.N., Gao, N., Chen, G.M. Simple model for flow field division and flow structure calculation in a vortex tube. International Journal of Refrigeration. 2022, 139, 48-59.
[12] Li, N., Wang, X.H., Gao, N., Chen, G.M. Simple direct relationship between scaled viscosity and a dimensionless calorimetric parameter for saturated liquids. Industrial & Engineering Chemistry Research. 2022, 61, 3, 1494-1502.
[13] Li, N., Jiang, G.N., Fu, L.C., Tang, L.M., Chen, G.M. Experimental study of the impacts of cold mass fraction on internal parameters of a vortex tube. International Journal of Refrigeration. 2019, 104, 151-160.
[14] Li, N., Zeng, Z.Y., Wang, Z., Han, X.H., Chen, G.M. Experimental study of the energy separation in a vortex tube. International Journal of Refrigeration. 2015.55:93-101.
[15] Han, X.H., Li, N., Wu, K.X., Wang, Z., Tang, L.M., Chen, G.M., Xu, X.G. The influence of working gas characteristics on energy separation of vortex tube [J]. Applied Thermal Engineering. 2013.61 (2):171-177.
[16] Zhang B., Guo Y., Li, N., He P., Guo X.J. Experimental study of gas-liquid behavior in three-flow vortex tube with sintered metal porous material as the drain part. Energy, 2023, 263, 125713.
[17] Guo X.J., Cao, L.L., Zhang B., Li, N., Fengyi Tang. Analysis of the flow mixing and energy separation in a Ranque–Hilsch vortex tube based on an area ratio study. Applied Thermal Engineering. 2023. 226, 120316.
[18] Hao, X.Y., Gao, N., Wang, X.H., Li, N., Chen, G.M., Wang, Q. Thermodynamic investigation on low GWP drop-in alternatives to HFC-245fa in ejector refrigeration cycle for air condition application. Asia-Pacific Journal of Chemical Engineering, 2023.
[19] Li, Q.P., Ding, Y.Q., Chen, G.M., Xuan, Y.M., Gao, N., Li, N., Hao. X.Y. Study on operation performance and application prospect of a thermal actuated pump. Energy Conversion and Management. 2023.
[20] Li, Q.P., Meng, X.Q., Li, L., Gao, N., Li, N., Qiu, R. An experimental study of annular film flow condensation in a micro-fin tube with high mass flux. International Journal of Refrigeration. 2024, 160, 106-118.
[21] Ding, Y.Q., Gao, N., Li, N., Chen, G.M., Xuan, Y.M. Experimental and modelling of vapour-liquid equilibria of ternary systems {HCOOK + [Emim]Ac + H2O}, {HCOOK + [Emim]Br + H2O}, {HCOOK + [Emim]Cl + H2O}, and {HCOOK + [Emim]NO3 + H2O}. Journal of Chemical & Engineering Data. 2021, 161, 106503.
[22] Chen, J.Y., Gao, X.X., Shao, S.Q., Hu, H.T., Xie, J.L., Li, N., Gao, N. Numerical investigation of the vortex tube performance in novel precooling methods in the hydrogen fueling station. International Journal of Hydrogen Energy, 2021. 46, 7, 2, 5548-5555.
3.成果奖项
4.发明专利
1. 一种电冷热联供的光能利用系统. 202210824077.5.
2. 一种发生器. 202211566462.0.
3. 一种隧道冷却系统. 202510299137X.
4. 一种低品位能源驱动的高温干燥和制冷系统及其控制方法. 202310167651.9.
5. 一种热驱动朗肯循环系统. 202310212483.0.
6. 一种空气取水装置. 2024104581271.
7. 一种新型加氢预冷系统. CN202010883214.3.
8. 一种采用环路热管强化涡流管效率的复叠制冷装置. 202211553529.7.
9. 利用涡流管能量分离效应预冷的一次节流低温制冷系统. 201711143305.8.
10.一种带有涡流管的干手装置.201610297306.7.
11.一种带有涡流管的除湿装置.ZL201510807888.4.
12.一种基于涡流管的制冷制热装置. CN201910543386.3.
13.管内沸腾实验中小管径换热管壁温测量装置. 2021100298720.
14.一种管内两相流动沸腾换热测试系统及控制方法. 2021100305781.
15.一种装配热驱动泵的低电耗喷射式制冷系统.CN202110599078.X.
16.一种封闭容器内流体流场状态的测量装置. CN202210730262.8.
17.一种喷射器. CN202210342398.1.
18.一种压力可控型储液装置及其控制方法. ZL202210838324.7.
19.一种集成智能化控制模块的数据中心高效通风系统. CN202111465569.1.
20.一种适用于数据中心水冷系统的节能预测控制方法及系统. CN202211394671.1.
21.一种基于涡流管的便携式冷热两用电扇. CN20191054240
