top of page
此網站是使用
.com
網站幫手設計的。立即用來製作您的網站吧!立即開始
%E4%BA%BA2_edited.jpg

王威翔 博士

Wei-Hsiang Wang, Ph. D. 

國立​中興大學機械系 助理教授

學歷 / Education

  • 國立交通大學 機械工程學系 博 士(2009/08~2014/06)

  • 國立交通大學 機械工程學系 碩 士(2006/08~2008/07)

  • 國立交通大學 機械工程學系 學 士(2002/09~2006/06)

經歷 / Work Experience

  • 日本理化學研究所計算科學研究中心 Complex Phenomena Unified Simulation Research Team博士後研究員(2016/04 - 2019/05)

  • 日本北海道大學 Computational Fluid Mechanics Laboratory 博士後研究員(2015/06 - 2016/03)

  • 國立交通大學 Application of Thermal and Fluid Laboratory 博士後研究員(2014/07 - 2015/05)

  • 美國德州農工大學 Turbine Heat Transfer Laboratory 訪問學者​(2013/07 - 2014/02)

研究計畫 / Research Grant

  • 以直接數值模擬(DNS)法及平行運算探討渦輪機引擎葉片之薄膜冷卻效益
      (2020/08/01 - 2022/07/31)​[補助機構:科技部    ]

  • 以Building Cube Method發展GPU超級電腦應用於大規模可壓縮紊流燃燒之數值計算
      (2019    /10/01 - 2022/07/31)​[補助機構:科技部]

  • 以數值模擬探討高速主軸軸承油氣潤滑氣障現象之先期基礎研究
      (2020    /07/01 - 2021/06/30)[​補助機構:上銀科技股份有限公司]

  • 工具機用旋轉視窗噪音改善
      (2019    /12/01 - 2020/06/30)​[補助機構:旺毅企業有限公司]

  • 污水處理廠節能改善方案與能耗模擬技術開發
      (2020    /10/02 - 2022/04/30)​[補助機構:工業技術研究院]

學術著作 / Conference Papers

  • 期刊論文

  1. Direct numerical simulation of film cooling with a fan-shaped hole under low Reynolds number conditions.

    International Journal of Heat and Mass Transfer, 123, 544-560, 2018.
     

  2. Investigation of boundary layer thickness and turbulence intensity on film cooling with a fan-shaped hole by direct numerical simulation.
    International Communications in Heat and Mass Transfer, 96, 12-19, 2018.
     

  3. An investigation of the unstable phenomena of natural convection in parallel square plates by multi-GPU implementation.
    Numerical Heat Transfer, Part B: Fundamentals, 71, 66-83, 2017.
     

  4. Compressible direct numerical simulation with a hybrid boundary condition of transitional phenomena in natural convection.
    International Journal of Heat and Mass Transfer, 90, 654-664, 2015.
     

  5. An investigation of natural convection in a three dimensional square wavy channel.
    International Communications in Heat and Mass Transfer, 66, 122-132, 2015.
     

  6. Applying Compute Unified Device Architecture to Investigate Gaseous Discharge from High-Pressure Vessel.
    Journal of Thermophysics and Heat Transfer, 30, 130-143, 2015.
     

  7. An investigation of natural convection in parallel square plates with a heated top surface by a hybrid boundary condition.
    International Journal of Thermal Sciences, 84, 48-61, 2014.
     

  8. An investigation of effects of heights and a length on natural convection of three dimensional parallel plates with a heated bottom surface by a CUDA computation platform.
    International Journal of Heat and Mass Transfer, 67, 118-130, 2013.
     

  9. An investigation of natural convection in parallel square plates with a heated bottom surface by an absorbing boundary condition.
    International Journal of Heat and Mass Transfer, 56(2013), 35–44, 2013.
     

  10. An investigation of natural convection of three dimensional horizontal parallel plates from a steady to an unsteady situation by a CUDA computation platform.
    International Journal of Heat and Mass Transfer, 55(2012), 4638-4650, 2012.
     

  11. An investigation of natural convection in a three dimensional tapered chimney without Boussinesq assumption.
    International Communications in Heat and Mass Transfer, 39, 509- 513, 2012.
     

  12. An investigation of compressible forced convection in a three dimensional tapered chimney by CUDA computation platform.
    International Journal of Heat and Mass Transfer, 54(2011), 3420-3430, 2011.

  • 研討會論文

  1. A Scalable Framework for Numerical Simulation of Combustion in Internal Combustion Engines.

    Proceedings of the Platform for Advanced Scientific Computing Conference. (2020)

  2. Fully Compressible Combustion Simulation of RCM in Hierarchical Cartesian Mesh System by Immersed Boundary Method.

    The 4th Thermal and Fluids Engineering Conference, Las Vegas, NV, USA. (2019)

  3. The Numerical Work of IC Engine Simulation by Fully Compressible Flow Solver in Hierarchical Cartesian Mesh System.

    The 15th International Conference on Flow Dynamics, Sendai, Japan. (2018)

  4. Wei-Hsiang Wang, Chung-Gung Li, Rahul Bale, Keiji Onishi, Makoto Tsubokura (2018, Oct). CFD Simulation of RCM Combustion by Building Cube Method.

    The 12th Asian Computational Fluid Dynamics Conference, Yilan, Taiwan. (2018)

  5. The IC engine simulation using hierarchical Cartesian mesh framework.

    Proceedings of the 6th European Conference on Computational Mechanics, Glassgow, UK. (2018)

  6. Investigation of open boundary problem in pure thermal plume by hybrid boundary condition with multi-GPU implementation.

    The 3rd Thermal and Fluids Engineering Conference, Fort Lauderdale, FL, USA. (2018)

  7. An investigation of implicit turbulence modeling for laminar-turbulent transition in natural convection.

    70th Annual Meeting of the APS Division of Fluid Dynamics, Denver, CO, USA. (2017)

  8. A deployment of HPC algorithm into pre/post- processing for industrial CFD on K-computer.

    The International Conference for High Performance Computing, Networking, Storage and Analysis, Denver, CO, USA. (2017)

  9. Fully compressible aerodynamics and aeroacoustics simulation of a full- scale road vehicle.

    The 14th International Conference on Flow Dynamics, Sendai, Japan. (2017)

  10. An immersed boundary method for compressible flows at low Mach numbers on engineering applications using massive parallelization systems.

    IACM 19th International Conference on Finite Elements in Flow Problems-FEF, Rome, Italy. (2017)

  11. Unstable phenomena of low speed compressible natural convection with open boundaries by multi-GPU implementation.

    69th Annual Meeting of the APS Division of Fluid Dynamics, Portland, Oregon, USA. (2016)

  12. Unstable Phenomena of Low Speed Compressible Natural Convection Flow.

    The 13th International Conference on Flow Dynamics, Sendai, Japan. (2016)

  13. The multi-GPU implementation for natural convection problems with multiple open boundaries.

    The 5th AICS International Symposium, Kobe, Japan. (2014)

  14. The simulation of transient process of gas discharge by multi-GPU with CUDA platform.

    The 20th IEEE International Conference on Parallel and Distributed Systems, Hsinchu, Taiwan. (2014)

  15. An investigation of swing phenomena of natural convection in parallel square Plates by a hybrid boundary condition.

    The 11th International Conference on Flow Dynamics, Sendai, Japan. (2014)

  16. Experimental and computational film cooling with backward injection for cylindrical and fan-shaped holes.

    Proceedings of the 15th International Heat Transfer Conference, Kyoto, Japan. (2014)

  17. An investigation of natural convection in parallel square plates with a heated top surface by a hybrid boundary condition.

    The 9th International Conference on Flow Dynamics, Sendai, Japan. (2012)

  18. The application of microphone array system and numerical fluid algorithm for jet propulsion wind tunnel noise prevention.

    Proceedings of the Internoise 2012/ASME NCAD meeting. (2012)

  19. The Fundamental Research of jet Acoustic Noise.

    The 8th International Conference on Flow Dynamics , Sendai, Japan. (2011)

bottom of page