郭闻韬:华北电力大学核科学与工程学院副教授、硕士生导师;全国标准化技术委员会反应堆技术分技术委员会委员;全国电力储能标准化技术委员会委员;哈尔滨工业大学核工程学士学位,洛桑联邦理工学院核工程硕士学位,苏黎世联邦理工学院核工程博士学位。主要讲授《工程流体力学》和《Heat Transfer》。Physics of Fluids,Annals of Nuclear Energy,International Journal of Heat and Fluid Flow等期刊审稿人。科学研究主要从事反应堆热工水力、两相流以及熔盐储能等方面的数值模拟研究,累计发表论文20余篇。
研究方向:
液态金属湍流换热直接数值模拟
熔盐储能系统瞬态分析
核电厂二回路水锤现象数值模拟
主要科研项目:
主持国家自然科学基金青年项目:强压力梯度下低普朗特数流体混合对流动量和标量输运机理研究及湍流模型开发
主持中央高校基本科研业务费项目2项:1. 低普朗特数流体湍流混合对流的DNS研究;2. 核岛工艺系统中复杂水锤现象数值模拟研究
参与国家重点研发计划项目:铅铋复杂流场分布、氧输运及与材料交互作用的模型开发与验证
学生培养:
指导研究生获国家奖学金1人次;指导本科生获校级优秀毕设1人次
获得荣誉:
获得第 12 届反应堆热工水力运行和安全国际会议 (NUTHOS-12) 最佳论文奖 (第一作者)
代表性学术论文(第一或通讯作者):
[1] Guo, Wentao*, et al. "Numerical analysis of the steady and transient operating characteristics of the flue gas molten salt heat storage system." Applied Thermal Engineering (2025): 126279.
[2] Guo, Wentao*, and Horst-Michael Prasser. "Direct numerical simulation of turbulent heat transfer in liquid metals in buoyancy-affected vertical channel." International Journal of Heat and Mass Transfer 194 (2022): 123013.
[3] Guo, Wentao, et al. "Turbulence budgets and statistics analysis of mixed convection liquid metal flow in horizontal channel using DNS." Annals of Nuclear Energy 199 (2024): 110352.
[4] Guo, Wentao*, and Horst-Michael Prasser. "Mixed convection study on the influence of low Prandtl numbers and buoyancy in turbulent heat transfer using DNS." Annals of Nuclear Energy 158 (2021): 108258.
[5] Guo, Wentao, et al. "Influence of buoyancy in a mixed convection liquid metal flow for a horizontal channel configuration." International Journal of Heat and Fluid Flow 85 (2020): 108630.
[6] Chen, Z., Zeng, H., Wang, X., Gao, Y., & Guo, W.* (2026). A comprehensive analysis of the influence of design and operational parameters on the entropy generation in the flue gas molten salt heat exchanger during transient processes. Journal of Energy Storage, 148, 120235.
[7] Zhang, Z., Zhao, J., Zhao, D., Tu, R., Xiong, F., Chen, Z., Guo, W.*, ... & Wang, S. (2025). Numerical simulation of condensate-induced water hammer with dynamic valve control using an advanced phase change model. Progress in Nuclear Energy, 180, 105631.
[8] Xiong, F., Zhao, J., Tu, R., Chen, X., Zhang, Z., Guo, W.*, ... & Zhou, Y. (2024). Improved CFD simulation of water hammer caused by condensation with an enhanced phase change model. Progress in Nuclear Energy, 173, 105242.