教育经历

2015.09--2020.12  厦门大学    计算数学      理学博士   

            学位论文:《辐射输运方程的高精度保正数值方法的研究》; 导师:邱建贤教授、黄维章教授

2018.10--2020.09  美国堪萨斯大学数学系   联合培养博士(国家建设高水平大学公派研究生项目)

2018.01--2018.09  北京应用物理与计算数学研究所    交流访问

2017.03--2017.08  北京应用物理与计算数学研究所    交流访问

2011.09--2015.07  内蒙古大学    数学与应用数学    理学学士

            毕业论文:《分数阶亚扩散方程的高阶局部间断Galerkin方法》;指导教师:刘洋教授

主持或参与的科研项目

  • 2024.01 -- 2026.12  国家自然科学青年基金:辐射输运问题的高精度保正守恒的移动网格方法研究  (主持,在研)

  • 2023.12 -- 2026.11  科技部揭榜挂帅项目-数学和应用研究专项:面向智能汽车研发需求的科学计算与模拟仿真软件(参与、项目/课题骨干,在研)

  • 2022.06 -- 2023.04  中国博士后科学基金面上资助:辐射输运问题的高精度稳健数值方法研究  (主持,已结题)

  • 2019.01--2020.12  国防基础科研核科学挑战专题“百亿亿次计算科学的计算方法与高效能实现”高精度高分辨率计算方法体系研究:适用一般状态方程问题的三维多介质流体力学高精度高分辨率欧拉算法 (参与、项目骨干,已结题)

  • 2016.01--2018.12  国防基础科研核科学挑战专题“百亿亿次计算科学的计算方法与高效能实现”高精度高分辨率计算方法体系研究:三维多介质流体力学典型问题的高精度数值方法研究与验证  (参与、项目骨干,已结题)

  • 2013.04 -- 2015.04  国家级大学生创新创业训练计划:耦合型偏微分方程的新型混合元法及数值模拟研究(主持,已结题)

奖励与荣誉

2024  入选北京市科协2024-2026年度青年人才托举工程 

2023  中国数学会第十七届钟家庆数学奖 

2023  第九届中国国际“互联网+”大学生创新创业北京赛区复赛“优秀创新创业导师”

2020  博士研究生国家奖学金、厦门大学“潘懋元一等奖学金”等

2015  内蒙古自治区“优秀毕业生”、内蒙古大学“优秀团干部”、“优秀学生一等奖学金”等

2014  宝钢优秀学生特等奖(全国共25名)、国家奖学金、高教社杯全国大学生数学建模竞赛“全国二等奖”等

2013  国家励志奖学金、内蒙古自治区“三好学生”、高教社杯全国大学生数学建模竞赛“全国二等奖”、第四届全国大学生数学竞赛(数学类)决赛“三等奖”等

2012  国家励志奖学金、“三好学生”、第四届全国大学生数学竞赛(数学类)预赛“一等奖”等

已发表论文

20. Min Zhang* and Weizhang Huang. A unifying moving mesh method for curves, surfaces, and domains based on mesh equidistribution and alignment, Communications in Computational Physics, to appear. (arXiv:2501.03086)

19.  Xiaoyang Xie, Zhanjing Tao, Chunhai Jiao, and Min Zhang*. An efficient fifth-order interpolation-based Hermite WENO scheme for hyperbolic conservation laws, Journal of Computational Physics, 523 (2025), 113673.

18. Lidan Zhao, Zhanjing Tao, and Min Zhang*. Well-balanced fifth-order finite volume WENO schemes with constant subtraction technique for shallow water equationsJournal of Scientific Computing(2025) 102:32.

17. Panpan Guo, Guang-an Zou*, and Min Zhang*.  An energy-dissipation finite element pressure-correction scheme for the hydrodynamics of smectic-A liquid crystals, International Journal of Numerical Analysis and Modeling, to appear.

16. Mengmeng Li, Guang-an Zou*, and Min Zhang*.  An efficient unconditional energy-stable finite element method for the electro-hydrodynamic equations, Computers and Mathematics with Applications, 176 (2024), 447-468.

15. Weizhang Huang, Ruo Li, Jianxian Qiu, and Min Zhang*A well-balanced moving mesh discontinuous Galerkin method for the Ripa model on triangular meshesJournal of Computational Physics, 487 (2023), 112147. 

14. Zhuang Zhao and Min Zhang*Well-balanced fifth-order finite difference Hermite WENO scheme for the shallow water equationsJournal of Computational Physics, 475 (2023), 111860. 

13. Min Zhang and Zhuang Zhao*A fifth-order finite difference HWENO scheme combined with limiter for hyperbolic conservation lawsJournal of Computational Physics, 472 (2023), 111676.  

12. Min Zhang, Weizhang Huang, and Jianxian Qiu*. A study on CFL conditions for the DG solution of conservation laws on adaptive moving meshesNumerical Mathematics: Theory, Methods and Applications, 16 (2023), 111-139.

11. Muyassar Ahmat, Suyuan Ni, Min Zhang*, and Zhuang Zhao. A sixth-order finite difference HWENO scheme for nonlinear degenerate parabolic equationComputers and Mathematics with Applications, 150 (2023), 196-210.

10. Min Zhang, Weizhang Huang, and Jianxian Qiu*. A well-balanced positivity-preserving quasi-Lagrange moving mesh DG method for the shallow water equationsCommunications in Computational Physics, 31 (2022), 94-130.  

9. Cassidy Krause, Weizhang Huang, David Mechem, Erik Van Vleck*, and Min Zhang.  A metric tensor approach to data assimilation with adaptive moving meshesJournal of Computational Physics, 466 (2022), 111407.  

8. Min Zhang, Weizhang Huang, and Jianxian Qiu*. A high-order well-balanced positivity-preserving moving mesh DG method for the shallow water equations with non-flat bottom topography, Journal of Scientific Computing, (2021), 87:88.

7. Min Zhang, Weizhang Huang, and Jianxian Qiu*. High-order conservative positivity-preserving DG-interpolation for deforming meshes and application to moving mesh DG simulation of radiative transfer, SIAM Journal on Scientific Computing, 42 (2020), A3109-A3135.  

6. Min Zhang, Juan Cheng, Weizhang Huang, and Jianxian Qiu*. An adaptive moving mesh discontinuous Galerkin method for the radiative transfer equation, Communications in Computational Physics, 27 (2020), 1140-1173.   

5. Min Zhang, Yang Liu*, and Hong Li. High-order local discontinuous Galerkin algorithm with time second-order schemes for the two-dimensional nonlinear fractional diffusion equationCommunications on Applied Mathematics and Computation, 2 (2020), 613-640.

4. Min Zhang, Juan Cheng, and Jianxian Qiu*. High order positivity-preserving discontinuous Galerkin schemes for radiative transfer equations on triangular meshesJournal of Computational Physics397 (2019), 108811. 

3.Min Zhang, Yang Liu*, and Hong Li. High-order local discontinuous Galerkin method for fractal mobile/immobile transport equation with Caputo-Fabrizio fractional derivativeNumerical Methods for Partial Differential Equations35 (2019), 1588-1612.

2. Yang Liu*, Min Zhang, Hong Li, and Jichun Li. High-order local discontinuous Galerkin method combined with WSGD-approximation for a fractional subdiffusion equationComputers and Mathematics with Applications73 (2017), 1298-1314.

1. Jinfeng Wang, Min Zhang, Yang Liu*, and Hong Li. Finite difference/H1-Galerkin MFE procedure for a fractional water wave model, Journal of Applied Analysis and Computation, 6 (2016), 409-428.

预印本

  1. Kexin Zhang, Min Zhang, and Jianxian Qiu. A fifth-order conservative Hermite WENO remapping method and its application to moving mesh solver.   submitted.