副研究员

邵卫
  • 类别:副研究员
  • 研究方向: 低温传热机理与调控研究,热力系统多尺度优化理论与应用,电子器件高效散热技术,强化传热与节能技术。
  • 电话:
  • 邮箱:wei.shao@iat.cn

简历介绍

Resume

邵卫,男,1990年生,山东荣成人,汉族,中共党员,博士,副研究员,硕士生导师。

  • 2012年06月获山东大学热能与动力工程专业学士学位。
  • 2013年07月至2015年04月公派至欧洲核子中心(CERN)阿尔法磁谱仪(AMS)项目学习交流。
  • 2017年06月获山东大学动力工程及工程热物理专业博士学位。
  • 2017年10月至2019年10月于清华大学航天航空学院从事博士后研究(合作导师:过增元院士)。
  • 2019年10月至2023年7月于山东大学热科学与工程研究中心担任助理研究员。
  • 2023年07月至今于山东高等技术研究院担任副研究员。

承担科研项目情况

Research Projects

承担科研项目情况:
    1. 2022/08/01-2023/12/31,发动机热控制系统仿真分析与优化,国家重大科技专项外协课题,主持
    2. 2022/01/01-2023/06/30,微通道热沉普适性传热模型及优化设计方法,中国博士后科学基金第70批面上项目,主持
    3. 2022/01/01-2024/12/31, 微通道热沉的势-流-阻参数耦合机制及实验验证,山东省自然科学基金,主持
    4. 2020/12/01-2022/11/30,基于热量流法的船舶动力系统多尺度仿真技术研究,热能动力技术重点实验室开放基金项目,主持
    5. 2020/05/28-2020/12/31,乙二醇罐式集装箱蒸汽加热系统数值模拟与计算,包头北方创业有限责任公司合作项目,主持
    6. 2019/12/01-2023/12/31,金属矿深部采场热控制理论与智能调控技术,山东省重大科技创新工程项目,学术骨干
    7. 2019/01/01-2023/12/31,分布式综合能源系统中多能输运和转换的耦合机理与整体调控原理研究,国家基金委重点项目,参与
    8. 2018/10/01-2020/09/30,基于火积理论的航空发动机空气冷却器能量流模型与仿真技术研究,航空动力基金项目,学术骨干
    9. 2013/01/01/-2017/12/31, 工业余热利用的换热设备多目标函数设计新理论与新方法,国家重点基础研究发展计划(973项目),参与

 

已发表论文:

  1. Jun-ling Liu, Mo-wen Li, Tian-yi Zhang, Yun-lei Wang, Zhuo-qun Cao, Wei Shao*, Qun Chen. Optimization of the aero-engine thermal management system with intermediate cycle based on heat current method. Applied Thermal Engineering, 2024, 237:121793
  2. Wen-pu Wang, Wei Shao*, Shuo Wang,Jun-ling Liu, Kun Shao, Zhuo-qun Cao, Yu Liu, Zheng Cui. Operation optimization of thermal management system of deep metal mine based on heat current method and prediction model. Energies, 2023,16:6626
  3. Wei Shao, Shuo Wang, Wenpu Wang, Kun Shao, Qi Xiao*, Zheng Cui**. Experiment and Simulation on a Refrigeration Ventilation System for Deep Metal Mines. Sustainability, 2023; 15(10):7818
  4. Zhenyu Wang, Zheng Cui, Qun Cao*, Wei Shao*. Investigation of bubble nucleation on inhomogeneous wettability surfaces. Molecular Simulation, 2023, 1-9.
  5. Jun-ling Liu, Shuo Wang, Tian-yi Zhang, Yun-lei Wang, Ke-lun He, Zheng Cui, Wei Shao*, Qun Chen. Experiment and simulation on a thermal management scheme of intermediate circulation based on heat current method. International Journal of Heat and Mass Transfer, 2023, 206:123939
  6. Shuo Wang, Wen-pu Wang, Kun Shao, Wen-hao Ding, Zheng Cui, Wei Shao*, Wan-xiang Ji**. Operation optimization of a refrigeration ventilation system for the deep metal mine. Case Studies in Thermal Engineering, 2023, 44:102817.
  7. Yuan Meng, Zheng Cui, Wei Shao*, Wan-xiang Ji**. Numerical Simulation of the Heat Transfer and Flow Characteristics of Pulse Tube Refrigerators. Energies, 2023, 16(4):1906.
  8. Xue-shuo Shang, Zhuo Miao, Huai-qing Cao, Rui Wang, Wei Shao*, Zheng Cui**. Modeling on cryogenic heat exchangers considering variable properties, axial heat conduction and viscous heating. International Journal of Refrigeration, 2023, 146:381-389
  9. Xue-shuo Shang, Qing-wen Li, Qun Cao, Zi-rui Li, Wei Shao*, Zheng Cui**. Mathematical modeling and multi-objective optimization on the rectangular micro-channel heat sink. International Journal of Thermal Sciences, 2023, 184:107926
  10. Wen-Pu Wang, Shuo Wang, Min-Min Dai, Kun Shao, Zheng Cui, Yu Liu, Wei Shao*, Lin Cheng**. Experimental analysis on dynamic performance of refrigeration systems in a deep gold mine. Applied Thermal Engineering, 2022, 217:119259
  11. Zhi-guo Wei, Zhi-qiang Qiu, Qi Xiao, Wei Shao*. Simulation and optimization of the waste heat recovery

system of the ship power system based on the heat current method. Energy Science & Engineering, 2022, 1-24.

  1. Bingcheng Wang, Qun Cao, Wei Shao*, Zheng Cui**. Effect of vacancy defects on the heat transfer coefficient of partially stacked graphene sheets. Journal of Materials Science, 2022, 57:8167-8179
  2. Bin Li, Zheng Cui, Qun Cao, Wei Shao*. Increasing Efficiency of a Finned Heat Sink Using Orthogonal Analysis. Energies, 2021, 14(3): 782
  3. Fan Chen, Yu Liu*, Zheng Cui, Wei Shao*. An optimization method for uniform flow distribution in the manifold of server cabinet. Energy Science & Engineering, 2020, 00:1-12
  4. Wei Shao, Guang-lin Yu, Yu Liu, Zheng Cui*. Temperature prediction of the main radiators of Alpha Magnetic Spectrometer-02 by the artificial neural network method. Nuclear Instruments & Methods in Physics Research, A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2020, 982:164581
  5. Wei Shao, Zheng Cui*, Xiao-teng Ma. Experiment researches on the cement grate cooler system and numerical simulation on its clinker cooling process. Applied Thermal Engineering, 2020, 181:115904
  6. Wei Shao, Xi Chen, Tian Zhao, Qun Chen*. Heat Current Model of Solid Granule Cooling Processes in Moving Packed Beds and its Applications. Chemical Engineering Research and Design, 2020, 156:384-390.
  7. Wei Shao, Zheng Cui*, Zhao-you Chen, Jing-chen Wang, Yu Liu, Xiao-han Ren, Feng Luo. Experimental and numerical measurements of the channel packed with disordered cement granules regarding the heat transfer performance. Applied Energy, 2019, 251:113244
  8. Wei Shao, Qun Chen*, Ke-Lun He, Meng-Qi Zhang. Operation Optimization of Liquid Cooling Systems in Data Centers by the Heat Current Method and Artificial Neural Network. Journal of Thermal Science, 2019, 29(4):1063-1075
  9. Wei Shao, Qun Chen*, Meng-qi Zhang. Operation optimization of variable frequency pumps in compound series-parallel heat transfer systems based on the power flow method. Energy Science & Engineering, 2018, 6:385–396.
  10. Wei Shao, Zheng Cui, Lin Cheng*. Multi-objective optimization design of air distribution of grate cooler with different clinker particles diameters and air chambers by genetic algorithm. Applied Thermal Engineering, 2017, 111:77-86
  11. Wei Shao, Zheng Cui, Lin Cheng*. Multi-objective optimization design of air distribution of grate cooler with different inlet temperatures by using genetic algorithm. SCIENCE CHINA Technological Sciences, 2017, 60:345-354
  12. Wei Shao, Zheng Cui, Lin Cheng*. Multi-objective optimization design of air distribution of grate cooler by entropy generation minimization and genetic algorithm. Applied Thermal Engineering, 2016, 108:76-83
  13. Wei Shao, Zheng Cui, Naihua Wang, Lin Cheng*. Numerical simulation of heat transfer process in cement grate cooler based on dynamic mesh technique. SCIENCE CHINA Technological Sciences, 2016, 59:989-1146
  14. Wei Shao, Zheng Cui*, Lin Cheng, Zhao-you Chen, Jing-chen Wang, Yu Liu, Xiao-han Ren, Feng Luo. Experimental researches on the convective heat transfer in a channel packed with disordered particles. Energy Procedia, 2019, 158:5175-5180
  15. Wei Shao, Zheng Cui*, Yu Liu. Multi-objective optimization on clinker layer thickness of a grate cooler based on entropy generation. Energy Procedia, 2019, 158:5811-5816
  16. 邵卫,刘一涛,袁野,高源,郝俊红,张孟起,陈群*. 基于能量流法的换热系统变负荷最优运行研究.工程热物理学报,2019, 40:8.
  17. 邵卫,陈群*,贺克伦,郝俊红.换热器动态特性分析的热量流模型. 工程热物理学报,2020,41:11.
  18. 王瑞,王猛,李斌,邵坤,崔峥,邵卫*. 乳品行业低温余热回收系统性能分析. 工程热物理学报,2022,43:2.

 

专利:

  1. 邵卫,刘君玲,陈群等。一种航空发动机热控制系统整体运行优化方法,202311147861.8。
  2. 邵卫,刘君玲,陈群等。一种航空发动机热控制系统整体设计优化方法,202311147874.5。
  3. 邵卫,刘君玲,陈群等。一种发动机热控制系统运行特征参数在线辨识方法,202311149942.1。
  4. 邵卫,商学硕,崔峥等。一种流动减阻的非均匀微通道及设计方法,202310926749.8。
  5. 邵卫,崔峥,刘昱等。一种地源热泵系统,CN202010279798.3。