硕士生导师

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吴浩

华北电力大学核科学与工程学院讲师,硕士研究生导师;清华大学核科学与技术博士学位/博士后。主讲课程《传热学》(本科生)、《核反应堆热工分析》(本科生)和《Heat Transfer》(留学生)。担任班主任班级:核工2002。2021-2022年度优秀班主任,完成班主任特色教育项目1项,主持校级教学研究与改革项目1项。主持国家自然科学基金1项,横向项目3项。在颗粒传热、热辐射和深度学习等方向发表学术论文二十余篇,其中Top期刊论文5篇,国际人工智能顶会(AAAI)论文1篇。累积被引433次,H-index为12。担任International Journal of Heat and Mass Transfer, Powder Technology,Frontiers in Energy Research和Nuclear Science and Techniques等期刊审稿人。

联系邮箱:wuhao1938@hotmail.com

研究方向:

[1].铅铋反应堆固态氧控

[2].高温气冷堆颗粒尺度传热规律

[3].气固两相耦合CFD-DEM

[4].球床颗粒辐射换热规律,离散颗粒仿真

[5].深度学习在反应堆热工中的应用

主要科研项目:

[1].主持国家自然科学基金青年科学基金项目:“铅铋反应堆颗粒尺度固态氧控机理研究”

[2].主持中央高校基本科研业务费项目:“融合深度学习理论的高温球床堆传热机理研究”

[3].主持国防科技工业核动力技术创新中心专项科研项目:“基于GPU并行的先进反应堆流动传热关键问题研究”

[4].中国核动力研究设计院2022年度开放基金项目:“耦合湍流传热的液态铅铋氧浓度迁移与沉积数值模拟研究”

代表论文:

[1].Wu H, Hao S, Niu F*, et al. A data-driven deep learning model of radiative heat transfer in dense granular systems[J]. Annals of Nuclear Energy, 2022, 167: 108855.

[2].Wu, Hao, Houjian Zhao, Zulong Hao, Fang Liu, and FengleiNiu*. A non-linear transform approach for conduction-radiation heat transfer in the extended thermal discrete element method. International Journal of Heat and Mass Transfer 176 (2021): 121432. (Top期刊)

[3].Wu H, Gui N, Yang X, et al. Full mechanism modeling of contact thermal resistance with stagnant fluids in thermal discrete element method[J]. International Communications in Heat and Mass Transfer, 2020, 119: 104829. (Top期刊)

[4].Wu H, Gui N, Yang X, et al. A matrix model of particle-scale radiative heat transfer in structured and randomly packed pebble bed[J]. International Journal of Thermal Sciences, 2020, 153: 106334.

[5].Wu H, Hao S. A deep neural network model of particle thermal radiation in packed bed[100]//Proceedings of the AAAI Conference on Artificial Intelligence. 2020, 34(01): 1029-1036.(国际人工智能顶会)

[6].Wu H, Gui N, Yang X, et al. Analysis of clumped-pebble shape on thermal radiation and conduction in nuclear beds by subcell radiation model[J]. Journal of Heat Transfer, 2020, 142(3).

[7].Wu H, Gui N, Yang X, et al. Analysis and evaluations of four models of thermal radiation for densely packed granular systems[J]. Chemical Engineering Science, 2020, 211: 115309. (Top期刊)

[8].Wu H, Gui N, Yang X, et al. An approximation function model for solving effective radiative heat transfer in packed bed[J]. Annals of Nuclear Energy, 2020, 135: 107000.

[9].Wu H, Gui N, Yang X, et al. A new uniform continuum modeling of conductive and radiative heat transfer in nuclear pebble bed[J]. Journal of Heat Transfer, 2019, 141(8): 082001.

[10].Wu H, Gui N, Yang X, et al. Particle-scale investigation of thermal radiation in nuclear packed pebble beds[J]. Journal of Heat Transfer, 2018, 140(9): 092002.

[11].Wu H, Gui N, Yang X, et al. Modeling effective thermal conductivity of thermal radiation for nuclear packed pebble beds[J]. Journal of Heat Transfer, 2018, 140(4):042701.

[12].Wu H, Gui N, Yang X, et al. A smoothed void fraction method for CFD-DEM simulation of packed pebble beds with particle thermal radiation[J]. International Journal of Heat and Mass Transfer, 2018, 118: 275-288. (Top期刊)

[13].Wu H, Gui N, Yang X, et al. Numerical simulation of heat transfer in packed pebble beds: CFD-DEM coupled with particle thermal radiation[J]. International Journal of Heat and Mass Transfer, 2017, 110: 393-405. (Top期刊)

[14].Wu H, Gui N, Yang X, et al. Effect of scale on the modeling of radiation heat transfer in packed pebble beds[J]. International Journal of Heat and Mass Transfer, 2016, 101: 562-569. (Top期刊)


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