教师名录

杨光 助理教授

所在系所制冷与低温工程研究所
办公电话021-34206814/小号:616490
通讯地址上海市闵行区东川路800号
电子邮件y_g@sjtu.edu.cn
个人主页 https://www.researchgate.net/profile/Guang_Yang59

  • 教育背景

    2016.09-2016.11 同济大学留德预备部,德语培训
    2011.09-2016.06 上海交通大学 动力工程及工程热物理 博士
    2007.09-2011.07 天津大学 建筑环境与设备工程 学士
  • 工作经历

    2019.03-至今 上海交通大学 机械与动力工程学院 助理教授
    2016.12-2019.01 斯图加特大学 航天热力学研究所 Research Associate
    2016.06-2016.11 上海交通大学 机械与动力工程学院 博士后
  • 出访及挂职经历

    2016.12-2019.01 斯图加特大学 航天热力学研究所 Research Associate
  • 研究方向

    微尺度多相流动与低温传热;
    空间热科学;
    航天热环境模拟与控制;
    多孔介质中的传输过程。
  • 科研项目

    主持:
    2016-2018 博士后创新人才支持计划:”基于流热固耦合机理的大型航天机构热变形地面实验研究与理论预测“
    2016-2018 中国博士后基金:“基于圆球/圆柱型多孔结构的微尺度热质传递机理研究”
    2016-2017 CSC-DAAD中德博士后项目:“Heat and Mass Transfer in Porous Media”
    2018-2019 空间结构与机构技术国防科技重点实验室开放课题: “基于地面环境试验的空间抛物面天线结构热变形机理研究”

    参与:
    2018-今 德国科学基金会(DFG)项目:SFB 1313 : Interface-Driven Multi-Field Processes in Porous Media–Flow, Transport and Deformation
    2015-2018 国家自然科学基金项目: 基于动态耦合传热的高低温环境系统升降温特性及其能量传递机理研究
    2012-2015 航天项目,高低温********** 试验系统
    2013-2015 教育部博士点基金项目: 大型高低温空间环境模拟试验系统的流动传热机理及其耦合控制特性研究,
  • 代表性论文专著

    期刊论文:

    2019:
    25. G. Yang, A. Terzis, I. Zarikos, S. M. Hassanizadeh, B. Weigand, R. Helmig, Internal flow patterns of a droplet pinned to the hydrophobic surfaces of a confined microchannel using micro-PIV and VOF simulations, Chemical Engineering Journal, 2019, 370: 444-454
    24. A. Terzis, I. Zarikos, K. Weishaupt, G. Yang, X. Chu, R. Helmig, B. Weigand, Microscopic velocity field measurements inside a regular porous medium adjacent to a low Reynolds number channel flow, Physics of Fluids 2019, 31, 4, 042001
    23. X. Chu, G. Yang, S. Pandy, B. Weigand, Direct numerical simulation of convective heat transfer in porous media, International Journal of Heat and Mass Transfer, 2019,133 :11-20
    22. G. Yang, E. Coltman, K. Weishaupt, et al. On the Beavers–Joseph Interface Condition for Non-parallel Coupled Channel Flow over a Porous Structure at High Reynolds Numbers. Transport in Porous Media, 2019: 1-27.
    21. Y.Y. Huang, G. Yang, and J. Y. Wu. Large eddy simulation and experimental study of turbulent mixed convection inside a cavity with large Rayleigh number: Effect of buoyancy. Building and Environment 2019, 151:268-279
    20. G. Yang, V. Vaikuntanathan, A. Terzis, et al. Impact of a Linear Array of Hydrophilic and Superhydrophobic Spheres on a Deep Water Pool. Colloids and Interfaces, 2019, 3(1): 29.

    2018:
    19. G. Yang, B. Weigand, Investigation of the Klinkenberg effect in a micro and nanoporous medium by direct simulation Monte Carlo method, Physical Review Fluids, 2018, 3(4) :044201
    18. G. Yang, B. Weigand, A. Terzis, et al. Numerical simulation of turbulent flow and heat transfer in a three-dimensional channel coupled with flow through porous structures, Transport in Porous Media, 2018, 122-145
    17. G. Yang, L. Zhang, Wu J, et al. Analysis of transient temperature field characteristics inside a large-scale thermal cycling test cavity for spacecraft. Heat Transfer Research, 2018, 49 : 255–273
    16. L. Zhang, Y. Huang, G. Yang*, J.Y. Wu. Numerical Simulation of Conjugate Turbulent Mixed Convection in an Open Cavity : Evaluation of Different Wall Heat Conduction Models. Numerical Heat Transfer, Part A : Applications, 2018, 74, 1244-1264
    15. A. Terzis, G. Yang, I. Zarikos, et al. A temperature-based diagnostic approach for paper-based microfluidics. Microfluidics and Nanofluidics, 2018, 22(3) : 35
    14. A. Terzis, E. Sauer, G. Yang et al. Characterisation of acid–base surface free energy components of urea–water solutions. Colloids and Surfaces A : Physicochemical and Engineering Aspects, 2018, 538 : 774-780
    13. L. Zhang, Y. Huang, J.Y. Wu, Z. Liu, G. Yang. Evaporation of water film in a three-dimensional vertical rectangular channel by laminar mixed convection. Applied Thermal Engineering, 2018, 130(5) :242-253
    12. L. Zhang, Z. Liu, J.Y. Wu, G. Yang, M. Bao. Computational investigation on nitrogen displacement process in a thermal environment simulation chamber.Science and Technology for the Built Environment, 2018, 24(4) : 343-355

    2017:
    11. G. Yang, Y.Y. Huang, J.Y. Wu, Experimental study and numerical models assessment of turbulent mixed convection heat transfer in a vertical open cavity, Building and Environment, 2017, 115 : 91-103
    10. Y. Huang, L. Zhang, G. Yang, J.Y. Wu. Secondary flow and entropy generation of laminar mixed convection in the entrance region of a horizontal square duct. ASME Journal of Heat Transfer. 2017,140(3) :034503

    2016:
    9. G. Yang, J.Y. Wu. Effects of natural convection, wall thermal conduction and thermal radiation on the heat transfer uniformity at a heated plate located at the bottom of a three dimensional rectangular enclosure, Numerical Heat Transfer, Part A : Applications, 2016, 69 : 589-606
    8. 黄一也, 杨光, 吴静怡. 以最佳温度均匀度和最小熵产为目标的航天器热循环试验系统运行参数优化. 化工学报,
    2016, 10 : 4086-4094

    2015:
    7. G. Yang, J.Y. Wu. Conjugate mixed convection in the entrance region of a symmetrically heated vertical channel with thick walls. International Journal of Thermal Sciences, 2015, 98 : 245-254
    6. G. Yang, J.Y. Wu. Entropy generation in a rectangular channel of buoyancy opposed mixed convection. International Journal of Heat and Mass Transfer, 2015, 86 : 809-819

    2014:
    5. G. Yang, J.Y. Wu. Effect of aspect ratio and assisted buoyancy on flow reversal for mixed convection with imposed flow rate in a vertical three dimensional rectangular duct. International Journal of Heat and Mass Transfer, 2014, 77 : 335-343
    4. 杨光, 吴静怡. 三维动态混合对流过程中的温度均匀性分析及实验验证. 工程热物理学报, 2014, 35 : 730-734
    3. 杨光, 吴静怡. 基于小波变换和多元回归的航天器热循环试验系统温度均匀性分析. 上海交通大学学报, 2014, 48 :1346-1350

    2013:
    2. G. Yang, J.Y. Wu, L. Yan. Flow reversal and entropy generation due to buoyancy assisted mixed convection in the entrance region of a three dimensional vertical rectangular duct. International Journal of Heat and Mass Transfer, 2013, 67 : 741-751
    1. G. Yang, J.Y. Wu. Effect of Side ratio and aiding/opposing buoyancy on the aerodynamic and heat transfer characteristics around a rectangular cylinder at low Reynolds numbers. Numerical Heat Transfer, Part A : Applications, 2013, 64 : 1016-1037


    会议论文:

    12. Weigand, B., Chu, X., Yang, G., & Helmig, R. Turbulence topology in regular porous media: a microscopic analysis with direct numerical simulation. Keynote Speech at InterPore 2019, Valencia, Spain
    11. G. Yang. On the Beavers–Joseph Interface Condition for Non-parallel Coupled Channel Flow over a Porous Structure at High Reynolds Numbers. SFB1313 Status Seminar, Blaubeuren, Germany, 2019
    10. G. Yang, B. Weigand, A hybrid DSMC/Navier-Stokes framework to solve the coupled channel flow and rarefied porous media flow.2nd International Conference on Simulation Technology, Stuttgart, Germany, 2018 ( 特邀报告)
    9. G. Yang, A. Terzis, I. Zarikos, et al., Droplet motion in a microfluidic channel under the effect of contact angle hysteresis. 30th GCCCD Annual Conference, Karlsruhe, Germany, 2018 (荣获最佳墙报奖)
    8. G. Yang, V. Vaikuntanathan, A. Terzis, B. Weigand, R. Helmig, Impact of a linear array of hydrophilic and superhydrophobic spheres on water pool, Gallary of Fluid Motion, 71th Annual Meeting of the APS Division of Fluid Dynamics, 2018
    7. G. Yang, Simulation of gas diffusion in porous materials consisting of micro-/nanoscale structures, Applied Nanotechnology and Nanoscience International Conference, Rome, Italy, 2017
    6. K. Weishaupt, A. Terzis, I. Zarikos, G. Yang, et al. Using a pore-network model to couple mass,momentum and energy at the interface between free flow and porous media flow. 9th International Conference on Porous Media, Rotterdam, Netherlands 2017
    5. Y. Huang, G. Yang, J.Y. Wu. Mixed convection characteristic inside a thermal cycling chamber with nonuniform perforated plate. Proceedings of the ASME 2016 International Mechanical Engineering Congress & Exposition,Phoenix, USA
    4. G. Yang, J.Y. Wu, Y.W. He, L. Yan, Investigation of temperature uniformity in an open cavity of buoyancy assisted mixed convection heat transfer with multiple discrete inlet and outlet ports, Proceedings of the ASME 2014 International Mechanical Engineering Congress & Exposition, Montreal, Canada
    3. G. Yang, J.Y. Wu. Investigation of the steady-state temperature field characteristics inside a thermal cycling test chamber of turbulent mixed convection. 24th International Congress of Refrigeration, Yokohama, Japan, 2015
    2. G. Yang, J.Y. Wu, Y.X. Xu, S.C. Yang, L. Yan, Analysis of temperature uniformity in the cooling/heating process of transient turbulent
    mixed convection, 15th Cross Strait Symposium on Energy and Environmental Science and Technology, Shanghai, China, 2014
    1. G. Yang, J.Y. Wu, L.J. Zhang, Design and simulation of a novel accelerated thermal cycling test system for space application, Cryogenics and Refrigeration Proceedings of ICCR’2013, Hangzhou, China
  • 软件版权登记及专利

    一种用于研究多孔结构中气体流动特性的实验装置,
    一种湍流混合对流传热实验装置
    蒸汽输送管道沿途冷凝水回收装置
    一种高低温常压热循环试验装置
    用于大型高低温环境试验箱的外门启闭结构
    一种大型高低温保温箱体
  • 学术兼职

    InterPore会员;

    担任以下学术期刊审稿人:
    Physics of Fluids,
    International Journal of Thermal Sciences,
    International Journal of Heat and Mass Transfer,
    Transport in Porous Media,
    Journal of Heat Transfer,
    Building and Environment,
    Experimental Thermal and Fluid Science,
    Science and Technology for the Built Environment,
    Experimental Heat Transfer,
    Engineering Science and Technology,
    Journal of Applied and Computational Mechanics,
    Chinese Journal of Chemical Engineering
  • 荣誉奖励

    2018 "International Journal of Heat and Mass Transfer", Outstanding Reviewer
    2016 首批国家博士后创新人才支持计划
    2016 上海市科技进步一等奖(排8)
    2016 上海市优秀毕业生
    2015 博士研究生国家奖学金
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