潘晓敏


    姓名:潘晓敏

    职务/职称:讲师/硕士生导师

    邮箱:xmpan@shu.edu.cn


    研究领域:

    计算流体力学;不可压缩流、流固耦合、单/多相流传热、趋化性驱动的生物对流问题、共轭传热以及不确定性量化等问题的数值算法研究。


    教育经历:

    2012/09-2017/08,Yonsei University,Department of Computational Science & Engineering,博士,导师:Dr. Changhoon Lee, Dr. Jung-Il Choi

    2008/09- 2012/06,中国海洋大学,数学与应用数学,学士


    工作经历:

    2019/12-至今,永利,数学系,讲师

    2017/09-2019/12,Yonsei University,Department of Computational Science & Engineering,博士后研究员,合作导师:Dr. Jung-Il Choi


    代表性科研项目:

    1. 国家自然科学基金青年基金项目,12101391,Non-Oberbeck-Boussinesq效应下两相自然对流问题的建模及高效算法研究,2022-01至2024-12, 30万元,在研,主持

    2. 上海市科学技术委员会,上海市2020年度“科技创新行动计划”扬帆计划项目,20YF1413500,随机非线性多物理场问题高效数值算法研究,2020-07至2023-06,20万元,结题,主持

    3. 上海高校青年东方学者,2020年

    4. 上海市海外引智计划入选者,2020年


    代表性学术论文:

    1. Shuman Wang, Afshan Batool, Xiang Sun, Xiaomin Pan*. Non-intrusive reduced-order model for time-dependent stochastic partial differential equations utilizing dynamic mode decomposition and polynomial chaos expansion. Chaos: An Interdisciplinary Journal of Nonlinear Science 2024, 34(7).

    2. Xiaomin Pan. Non-Oberbeck–Boussinesq effects on a differentially heated vertical cavity with high-Prandtl number fluid. Physics of Fluids 2024, 36(7).

    3. Xiaomin Pan, Jung-Il Choi. Effects of inclination angle on Rayleigh–Bénard convection under non-Oberbeck–Boussinesq approximation in air. International Communications in Heat and Mass Transfer 2024, 151: 107255.

    4. Xiaomin Pan, Wanli Yu, Jung-Il Choi. Effects of aspect ratio on Rayleigh–Bénard convection under non-Oberbeck–Boussinesq effects in glycerol. The European Physical Journal Plus 2023, 138(12):1096.

    5. Xiaomin Pan, Jung-Il Choi. Non-Oberbeck–Boussinesq effects on a water-filled differentially heated vertical cavity. Physics of Fluids 2023, 35(11).

    6. Xiaomin Pan, Jung-Il Choi. Non-Oberbeck–Boussinesq effects in two-dimensional Rayleigh–Bénard convection of different fluids. Physics of Fluids 2023, 35(9).

    7. Ji-Hoon Kang, Ki-Ha Kim, Xiaomin Pan, Jung-Il Choi. PaScaL_TCS: A versatile solver for large-scale turbulent convective heat transfer problems with temperature-dependent fluid properties. Computer Physics Communications 2023, 290:108779.

    8. Shuman Wang, Junxiang Yang, Xiaomin Pan*. Highly efficient time-marching method with enhanced energy consistency for the L2-gradient flow based two-phase incompressible fluid system. Computer and Mathematics with Applications 2023, 139: 68-90.

    9. Xiaomin Pan, Ki-Ha Kim, and Jung-Il Choi. Monolithic projection-based method with staggered time discretization for solving non-Oberbeck–Boussinesq natural convection flows. Journal of Computational Physics 2022, 463: 111238.

    10. Ahn, Junsun, Ki-Ha Kim, Xiaomin Pan, and Jung-Il Choi. Contribution of Reynolds shear stress to near-wall turbulence in Rayleigh–Bénard convection. International Journal of Heat and Mass Transfer 2021, 181: 121873.

    11. Xiaomin Pan, Soomin Chun, Jung-Il Choi. Efficient monolithic projection-based method for chemotaxis-driven bioconvection problems. Computers and Mathematics with Applications 2021, 84: 166-184.

    12. Ki-Ha Kim, Ji-Hoon Kang, Xiaomin Pan, Jung-Il Choi. PaScaL_TDMA: A library of parallel and scalable solvers for massive tridiagonal systems. Computer Physics Communications 2021, 260: 107722.

    13. Xiang Sun, Xiaomin Pan, Jung-Il Choi. Non-intrusive framework of reduced-order modeling based on proper orthogonal decomposition and polynomial chaos expansion. Journal of Computational and Applied Mathematics 2021, 390: 113372.

    14. Xiaomin Pan, Ki-Ha Kim, Jung-Il Choi. Efficient monolithic projection method with staggered time discretization for natural convection problems. International Journal of Heat and Mass Transfer 2019, 144: 118677.

    15. Xiaomin Pan, Changhoon Lee, Jung-Il Choi. Efficient monolithic projection method for time-dependent conjugate heat transfer problems. Journal of Computational Physics 2018, 369: 191-208.

    16. Xiaomin Pan, Kyoungyoun Kim, Changhoon Lee, Jung-Il Choi. Fully decoupled monolithic projection method for natural convection problems. Journal of Computational Physics 2017, 334: 582-606.

    17. Xiaomin Pan, Kyoungyoun Kim, Changhoon Lee, Jung-Il Choi. A decoupled monolithic projection method for natural convection problems. Journal of Computational Physics 2016, 314: 160-166.

    18. Hyunwook Park, Xiaomin Pan, Changhoon Lee, Jung-Il Choi. A pre-conditioned implicit direct forcing based immersed boundary method for incompressible viscous flows. Journal of Computational Physics 2016, 314: 774-799.

    19. Xiaomin Pan, Changhoon Lee, Kyoungyoun Kim, Jung-Il Choi. Analysis of velocity-components decoupled projection method for the incompressible Navier–Stokes equations. Computer and Mathematics with Applications 2016, 71(8): 1722-1743.


    (最后更新日期:2024.8.29)

    潘晓敏


      姓名:潘晓敏

      职务/职称:讲师/硕士生导师

      邮箱:xmpan@shu.edu.cn


      研究领域:

      计算流体力学;不可压缩流、流固耦合、单/多相流传热、趋化性驱动的生物对流问题、共轭传热以及不确定性量化等问题的数值算法研究。


      教育经历:

      2012/09-2017/08,Yonsei University,Department of Computational Science & Engineering,博士,导师:Dr. Changhoon Lee, Dr. Jung-Il Choi

      2008/09- 2012/06,中国海洋大学,数学与应用数学,学士


      工作经历:

      2019/12-至今,永利,数学系,讲师

      2017/09-2019/12,Yonsei University,Department of Computational Science & Engineering,博士后研究员,合作导师:Dr. Jung-Il Choi


      代表性科研项目:

      1. 国家自然科学基金青年基金项目,12101391,Non-Oberbeck-Boussinesq效应下两相自然对流问题的建模及高效算法研究,2022-01至2024-12, 30万元,在研,主持

      2. 上海市科学技术委员会,上海市2020年度“科技创新行动计划”扬帆计划项目,20YF1413500,随机非线性多物理场问题高效数值算法研究,2020-07至2023-06,20万元,结题,主持

      3. 上海高校青年东方学者,2020年

      4. 上海市海外引智计划入选者,2020年


      代表性学术论文:

      1. Shuman Wang, Afshan Batool, Xiang Sun, Xiaomin Pan*. Non-intrusive reduced-order model for time-dependent stochastic partial differential equations utilizing dynamic mode decomposition and polynomial chaos expansion. Chaos: An Interdisciplinary Journal of Nonlinear Science 2024, 34(7).

      2. Xiaomin Pan. Non-Oberbeck–Boussinesq effects on a differentially heated vertical cavity with high-Prandtl number fluid. Physics of Fluids 2024, 36(7).

      3. Xiaomin Pan, Jung-Il Choi. Effects of inclination angle on Rayleigh–Bénard convection under non-Oberbeck–Boussinesq approximation in air. International Communications in Heat and Mass Transfer 2024, 151: 107255.

      4. Xiaomin Pan, Wanli Yu, Jung-Il Choi. Effects of aspect ratio on Rayleigh–Bénard convection under non-Oberbeck–Boussinesq effects in glycerol. The European Physical Journal Plus 2023, 138(12):1096.

      5. Xiaomin Pan, Jung-Il Choi. Non-Oberbeck–Boussinesq effects on a water-filled differentially heated vertical cavity. Physics of Fluids 2023, 35(11).

      6. Xiaomin Pan, Jung-Il Choi. Non-Oberbeck–Boussinesq effects in two-dimensional Rayleigh–Bénard convection of different fluids. Physics of Fluids 2023, 35(9).

      7. Ji-Hoon Kang, Ki-Ha Kim, Xiaomin Pan, Jung-Il Choi. PaScaL_TCS: A versatile solver for large-scale turbulent convective heat transfer problems with temperature-dependent fluid properties. Computer Physics Communications 2023, 290:108779.

      8. Shuman Wang, Junxiang Yang, Xiaomin Pan*. Highly efficient time-marching method with enhanced energy consistency for the L2-gradient flow based two-phase incompressible fluid system. Computer and Mathematics with Applications 2023, 139: 68-90.

      9. Xiaomin Pan, Ki-Ha Kim, and Jung-Il Choi. Monolithic projection-based method with staggered time discretization for solving non-Oberbeck–Boussinesq natural convection flows. Journal of Computational Physics 2022, 463: 111238.

      10. Ahn, Junsun, Ki-Ha Kim, Xiaomin Pan, and Jung-Il Choi. Contribution of Reynolds shear stress to near-wall turbulence in Rayleigh–Bénard convection. International Journal of Heat and Mass Transfer 2021, 181: 121873.

      11. Xiaomin Pan, Soomin Chun, Jung-Il Choi. Efficient monolithic projection-based method for chemotaxis-driven bioconvection problems. Computers and Mathematics with Applications 2021, 84: 166-184.

      12. Ki-Ha Kim, Ji-Hoon Kang, Xiaomin Pan, Jung-Il Choi. PaScaL_TDMA: A library of parallel and scalable solvers for massive tridiagonal systems. Computer Physics Communications 2021, 260: 107722.

      13. Xiang Sun, Xiaomin Pan, Jung-Il Choi. Non-intrusive framework of reduced-order modeling based on proper orthogonal decomposition and polynomial chaos expansion. Journal of Computational and Applied Mathematics 2021, 390: 113372.

      14. Xiaomin Pan, Ki-Ha Kim, Jung-Il Choi. Efficient monolithic projection method with staggered time discretization for natural convection problems. International Journal of Heat and Mass Transfer 2019, 144: 118677.

      15. Xiaomin Pan, Changhoon Lee, Jung-Il Choi. Efficient monolithic projection method for time-dependent conjugate heat transfer problems. Journal of Computational Physics 2018, 369: 191-208.

      16. Xiaomin Pan, Kyoungyoun Kim, Changhoon Lee, Jung-Il Choi. Fully decoupled monolithic projection method for natural convection problems. Journal of Computational Physics 2017, 334: 582-606.

      17. Xiaomin Pan, Kyoungyoun Kim, Changhoon Lee, Jung-Il Choi. A decoupled monolithic projection method for natural convection problems. Journal of Computational Physics 2016, 314: 160-166.

      18. Hyunwook Park, Xiaomin Pan, Changhoon Lee, Jung-Il Choi. A pre-conditioned implicit direct forcing based immersed boundary method for incompressible viscous flows. Journal of Computational Physics 2016, 314: 774-799.

      19. Xiaomin Pan, Changhoon Lee, Kyoungyoun Kim, Jung-Il Choi. Analysis of velocity-components decoupled projection method for the incompressible Navier–Stokes equations. Computer and Mathematics with Applications 2016, 71(8): 1722-1743.


      (最后更新日期:2024.8.29)

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