姓名: 潘建华
学科:力学
职称:副研究员
联系方式
地址:浙江省宁波市风华路818号宗瑞航海楼405
email:[email protected]
教育及工作简历
2021.4-至今 宁波大学 副研究员
2017.10-2021.3俄亥俄州立大学 化学与生物分子工程学院 博士后研究员(导师:范良士院士)
2013.9-2017.10 清华大学 航天航空学院 力学专业 博士(导师:任玉新教授)
2011.8-2013.7 清华大学 航天航空学院 力学专业 硕士(转博)(导师:任玉新教授)
2008.8-2011.7 清华大学 计算机系 计算机应用(辅修)
2007.8-2011.7 清华大学 航天航空学院 工程力学与航天航空工程 学士
个人简介
潘建华,工学博士,主要研究方向包括计算流体力学中的高精度数值方法、气-气/气-固两相流、燃烧问题以及流体问题中的机器学习以及建模等。以一作和共同一作发表论文7篇,其中TOP期刊6篇,相关工作发表在Journal of Computational Physics、SCIENCE CHINA Physics, Mechanics & Astronomy 和Chinese Journal of Aeronautics 等顶级杂志上。
论文
1. Pan, Jianhua, and Yu-Xin Ren. ” High order sub-cell finite volume schemes for solving hyperbolic conservation laws I: basic formulation and one-dimensional analysis.” SCIENCE CHINA Physics, Mechanics & Astronomy 60, no. 8 (2017): 084711. (TOP, JCR Q1)
2. Pan, Jianhua, Yu-Xin Ren, and Yutao Sun. ”High order sub-cell finite volume schemes for solving hyperbolic conservation laws II: Extension to two-dimensional systems on unstructured grids.” Journal of Computational Physics 338 (2017): 165-198. (TOP, JCR Q1)
3. Pan, Jianhua, Wang Qian, Yusi Zhang, and Yu-Xin Ren. ” High-order compact finite volume methods on unstructured grids with adaptive mesh refinement for solving inviscid and viscous flows.” Chinese Journal of Aeronautics 31, no. 9 (2018): 1829-1841. (TOP, JCR Q1)
4. Pan, Jianhua, Yaswanth Pottimurthy, Dawei Wang, Soohwan Hwang, Shalin Patil, and Liang-Shih Fan. "Recurrent neural network based detection of faults caused by particle attrition in chemical looping systems." Powder Technology (2020). (TOP, JCR Q1)
5. Pan, Jianhua, Yu-Yen Chen, and Liang-Shih Fan. "Second-Order Unconditional Positive Preserving Schemes for Non-equilibrium Reactive Flows with Mass and Mole Balance". Journal of Computational Physics, 2021, 441(9):110477. (TOP, JCR Q1)
6. Liu, Yan, Lang Qin, Jianhua Pan, Yu-Yen Chen, Josh Goetze, Dikai Xu, Jonathan Fan, Liang-Shih Fan. “SBA-16-Mediated Nanoparticle Enabling Accelerated Kinetics in Cyclic Methane Conversion to Syngas at Low Temperatures”. ACS Applied Energy Materials (2020).
doi.org/10.1021/acsaem.0c01495. (共同一作)
7. Hwang, Soohwan, Jianhua Pan , and Liang-Shih Fan. "A machine learning-based interaction force model for non-spherical and irregular particles in low Reynolds number incompressible flows." Powder Technology (2021). (共同一作, TOP, JCR Q1)
8. Li, Jun-Tao, Yu-Tao Sun, Jian-Hua Pan and Yu-Xin Ren. "Instability and turbulent mixing of shocked V' shaped interface." APS Vol. 65 No. 24 (2016).
9. Zeng, Wei-Gang, Jianhua Pan, Yu-Xin Ren, and Yu-Tao Sun. ”Numerical study on the turbulent mixing of planar shock-accelerated triangular heavy gases interface.” Acta Mechanica Sinica 34, no. 5 (2018): 855-870.
10. Zeng, Wei-Gang, Jianhua Pan, Yutao Sun, and Yu-Xin Ren. ”Turbulent mixing and energy transfer of reshocked heavy gas curtain.” Physics of Fluids 30, no. 6 (2018): 064106.
11. Li, Wanai, Jianhua Pan, and Yu-Xin Ren. ”The discontinuous Galerkin spectral element methods for compressible flows on two-dimensional mixed grids.” Journal of Computational Physics 364 (2018): 314-346.
12. Wang, Qiuju, Ralf Deiterding, Jianhua Pan, and Yu-Xin Ren. "Consistent high resolution interface-capturing finite volume method for compressible multi-material flows." Computers & Fluids (2020): 104518.
13. Zeng, Wei-Gang, Yu-Xin Ren and Jianhua Pan. “Instability and Mixing of Gas Interfaces Driven by Cylindrically Converging Shock Wave”. preprint.
