姚元鹏

博士，副研究员

Email：yaoyuanpeng@@gdiist.cn

个人简介：

2010年于南昌大学取得学士学位，2018年于上海交通大学取得博士学位。2018-2022年，先后在上海交通大学、英国诺丁汉大学（University of Nottingham）、英国肯特大学（University of Kent）开展博士后/访问学者研究，2022-2024年任职Freshape科技公司新能源存储部门经理。曾主持国家自然科学基金青年基金项目、中国博士后科学基金面上项目、中国博士后国际交流计划派出项目、Freshape产品研发项目，同时参与国家重点基础研究计划（973）项目、国家自然科学基金重点项目、欧盟地平线玛丽居里行动计划项目等课题。研究成果获教育部自然科学一等奖、中国工程热物理学会青年优秀论文一等奖。受邀担任国家自然科学基金委、波兰国家科学中心、斯洛伐克研究发展署项目评审专家，国际20余本SCI期刊评议人，Frontiers in Thermal Engineering客座编辑。

研究方向：

1. 微电子芯片高效冷却技术

2. 先进热化学/相变储能技术

3. 分级构形耦合温压调控理论与方法

代表论著：

1. Li Y., Wu H., Yao Y., Experimental study on flow boiling characteristics in short counter-flow slot interconnected microchannels, International Journal of Thermal Sciences, 203 (2024) 109143. (SCI, EI)

2. Errebii M., Mourid A., EI Alami M., Yao Y., Evaluation and optimization of thermal exchange performance for a metal foam/phase change material composite integrated into a heat sink, Journal of Energy Storage, 99 (Part A) (2024) 113211. (SCI, EI)

3. Yao Y., Wu H., Interfacial heat transfer in metal foam porous media (MFPM) under steady thermal conduction condition and extension of Lemlich foam conductivity theory, International Journal of Heat and Mass Transfer, 169 (2021) 120974. (SCI, EI)

4. Yao Y., Wu H., Thermal transport process of metal foam/paraffin composite (MFPC) with solid-liquid phase change: An experimental study, Applied Thermal Engineering, 179 (2020) 115668. (SCI, EI)

5. Yao Y., Wu H., Pore-scale simulation of melting process of paraffin with volume change in high porosity open-cell metal foam, International Journal of Thermal Sciences, 138 (2019) 322-340. (SCI, EI)

6. Yao Y., Wu H., Gao Z., Liu Z., Pore-scale visualization and measurement of paraffin solidification in high porosity open-cell copper foam, International Journal of Thermal Sciences, 135 (2019) 94-103. (SCI, EI)

7. Yao Y., Wu H., Liu Z., Gao Z., Pore-scale visualization and measurement of paraffin melting in high porosity open-cell copper foam, International Journal of Thermal Sciences, 123 (2018) 73-85. (SCI, EI)

8. Yao Y., Wu H., Liu Z., A new prediction model for the effective thermal conductivity of high porosity open-cell metal foams, International Journal of Thermal Sciences, 97 (2015) 56-67. (SCI, EI)

9. Yao Y., Wu H., Liu Z., Direct simulation of interstitial heat transfer coefficient between paraffin and high porosity open-cell metal foam, ASME Journal of Heat Transfer, 140 (2017) 032601-032611. (SCI, EI)

10. Yao Y., Wu H., Liu Z., Pore scale investigation of heat conduction of high porosity open-cell metal foam/paraffin composite, ASME Journal of Heat Transfer, 139 (2017) 091302-091311. (SCI, EI)

11. Yao Y., Wu H., Macroscale modeling of solid–liquid phase change in metal foam/paraffin composite: Effects of paraffin density treatment, thermal dispersion, and interstitial heat transfer, ASME Journal of Thermal Science and Engineering Applications, 13 (4) (2021) 041024. (SCI, EI)

12. Yao Y., Wu H., Thermal energy discharging performance of metal foam/paraffin composite phase change material at pore scale, ASME Journal of Thermal Science and Engineering Applications, 13 (5) (2021) 051007. (SCI, EI)

13. Yao Y., Wu H., Pore-scale modeling on solidification of paraffin with volume change in high porosity open-cell metal foam, International Mechanical Engineering Congress & Exposition, IMECE2018-88875, Technical Presentation, Pittsburgh, PA, USA. Nov 9-15, 2018.

14. Yao Y., Wu H., Numerical simulation of melting in metal foam/paraffin composite phase change material using a physically more reasonable macroscale model, Proceedings of the ASME 2019 Heat Transfer Summer Conference. Bellevue, Washington, USA. July 14-17, 2019. V001T02A007. (EI)

15. Yao Y., Wu H., Liu Z., Numerical study of heat conduction of high porosity open-cell metal foam/paraffin composite at pore scale, Proceedings of the ASME 2016 Heat Transfer Summer Conference. Washington, DC, USA. July 10-14, 2016. V001T02A006. (EI)

16. Yao Y., Zhang S., Yan Y., Wu H., Boundary heat flux bifurcation for low Reynolds number fluid convection through high porosity open-cell metal foam, 17th UK Heat Transfer Conference (UKHTC2021), Manchester, UK, Sept. 5-7, 2021. Paper No. 124.

17. Yang Z., Yao Y. (co-first author), Wu H., Effects of surfactants on subcooled pool boiling characteristics: An experimental study, International Journal of Heat and Mass Transfer, 2022, 123419. (SCI, EI)

18. Zhang S., Yao Y., Jin Y., et al. Heat transfer characteristics of ceramic foam/molten salt composite phase change material (CPCM) for medium-temperature thermal energy storage, International Journal of Heat and Mass Transfer, 2022, 196: 123262. (SCI, EI)

19. Li Y., Yao Y., Wu H., Experimental investigation of flow boiling characteristics in counter-flow microchannels with different mass flux distributions, International Journal of Heat and Mass Transfer, 2022, 190, 122768. (SCI, EI)

20. Li Y., Wu H., Yao Y., Enhanced flow boiling heat transfer and suppressed boiling instability in counter-flow stepped microchannels, International Journal of Heat and Mass Transfer, 2022, 194, 123025. (SCI, EI)

21. Zhang S, Li Z, Yao Y., Tian L., Yan Y., Heat transfer characteristics and compatibility of molten salt/ceramic porous composite phase change material, Nano Energy, 100 (2022) 107476. (SCI, EI)

22. Liu Z., Yao Y., Wu H., Numerical modeling for solid–liquid phase change phenomena in porous media: Shell-and-tube type latent heat thermal energy storage, Applied Energy, 112 (2013) 1222-1232. (SCI, EI，ESI Highly Cited Paper)

23. Cheng X., Yao Y., Wu H., An experimental investigation of flow boiling characteristics in silicon-based groove-wall microchannels with different structural parameters, International Journal of Heat and Mass Transfer, 168 (2021) 120843. (SCI, EI)

24. Gao Z., Yao Y., Wu H., A visualization study on the unconstrained melting of paraffin in spherical container, Applied Thermal Engineering, 155 (2019) 428-436. (SCI, EI)

25. Gao Z., Yao Y., Wu H., Validation of a melting fraction-based effective thermal conductivity correlation for prediction of melting phase change inside a sphere, International Journal of Thermal Sciences, 142 (2019) 247-257. (SCI, EI)

26. Gao Z., Wu H., Yao Y., Two-stage heat transfer characteristics of constrained melting inside an isothermally heated horizontal cylinder, International Journal of Thermal Sciences, 144 (2019) 107-118. (SCI, EI)

27. Liu Z., Wang H., Yao Y., Wu H., Multiscale modeling of flow and heat transfer in porous media, Proceedings of the ASME 2012 International Mechanical Engineering Congress and Exposition. Houston, Texas, USA. November 9-15, 2012. pp. 1659-1666. (EI)