教育工作经历

研究员（2021.9–至今）：同济大学，土木工程学院

研究员，PI（2019.7–2021.7）：汉诺威莱布尼茨大学（德国），土木工程学院

博士后（2017.06–2019.06）：汉诺威莱布尼茨大学（德国），土木工程学院

博士（2013.09–2017.06）：汉诺威莱布尼茨大学（德国），土木工程学院

硕士（2010.09–2013.07）：中国科学院大学，力学研究所

学士（2006.09–2010.06）：同济大学，航空航天与力学学院

研究项目及经费支持

1.微观尺度微生物诱导碳酸钙沉淀非均匀演变作用下渗流机理研究.2023-2025，国家自然科学基金，主持

2.可变形多孔介质流-固耦合过程数值研究.2022-2025,上海市领军人才（中央高校基本科研业务费），主持

  3.Multi-scale modeling of biofilm detachment in fluid with a poroviscoelastic model.2019-2021，德国自然科学基金（DFG），主持

  4.Numerical and experimental investigations of the biosealing process in fractured rocks.2020-2022,中科院武汉岩土所国家重点实验室开放基金，主持

  研究方向

（一）计算水动力学模型与方法

（二）流-固-土耦合过程模拟

（三）微生物系统数值模拟

（四）计算爆炸、冲击动力学

（五）高性能计算、仿真软件平台开发

招生信息

     每年招收博士、硕士研究生若干名，欢迎加入团队！

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课题组成员（环境水动力；Environmental Hydraulics）

博士研究生

姓名：楚亚杰

研究方向：孔隙尺度微生物诱导碳酸钙矿化过程研究

个人爱好：登山，慢跑

硕士研究生

姓名：付体涵

研究方向：波浪水动力学SPH计算方法

个人介绍：付出奏第章，体壮展辉煌。涵高人中龙，才气贯长虹。

姓名：易灿

研究方向：水土耦合过程无网格模拟方法

个人介绍：年轻是我们唯一有权利去编织梦想的时光

项目工作人员

姓名：白洋已    

研究方向：城市地铁淹没风险与防范能力综合评估及监测预警

兴趣爱好：乒乓球、羽毛球

姓名：王佳文

研究方向：三维复杂地下空间淹水过程模拟分析

兴趣爱好：跑步、羽毛球

姓名：谢至涛

研究方向：GIS技术在水文分析及灾害模拟中的应用

兴趣爱好：足球、羽毛球、游泳、摄影、阅读、乐器

学术发表

近期会议报告

第15届世界计算力学大会暨第8届亚太计算力学大会(WCCM-APCOM 2022)，日本横滨，主题报告（keynote lecture）

第三届无网格粒子类方法进展与应用研讨会, 广西南宁，主会场报告

期刊论文

1. H.Shi, Y. Huang, D. Feng, Numerical investigation on the role of check dams with bottom outlets in debris flow mobility by 2D SPH. Scientific Reports, 2022, 12, 20456.

2. 冯殿垒；I. Neuweiler; 黄雨；波浪与多孔结构流固耦合过程的SPH模拟研究, 中国科学: 物理学 力学 天文学, 2022, 52（10）104715.

3. D. Feng, X. Wang, U. Nackenhorstc, X. Zhang, P. Pan; A comparative study of using two numerical strategies to simulate the biochemical processes in MICP, Journal of Rock Mechanics and Geotechnical Engineering, 2022, 14(2): 592-602.

4. J.Y. Chen; D. Feng; G. Y. Wang;  F. Gao; C. Peng; Numerical Simulation of Detonation and Brisance Performance of Aluminized HMX Using Density‐Adaptive SPH. Propellants, Explosives, Pyrotechnics, 2021, 46(12), 1800-1814.

5. D. Feng; I. Neuweiler; R. Nogueira; U. Nackenhorst; Modeling of symbiotic bacterial biofilm growth with an example of the Streptococcus-Veillonella sp. system, Bulletin of Mathematical Biology, 2021, 83(5).

6. D. Feng; I.Neuweiler; M.B. Liu; U. Nackenhorst; Numerical modeling of the mechanical response of bacterial biofilm to flow by using an SPH poroviscoelastic model, PAMM, 2021, 20(1).

7. J.Y. Chen; D. Feng; F.S. Lien; C. Peng; Numerical modelling of interaction between aluminium structure and explosion in soil, Applied Mathematical Modelling, 2021, 99: 760-784.

8. J.Y. Chen; D. Feng; S.X. Deng; C. Peng; F.S. Lien; GPU-accelerated smoothed particle hydrodynamics modeling of jet formation and penetration capability of shaped charges, Journal of Fluids and Structures, 2020, 99(103171)

9. D. Feng; I. Neuweiler; U. Nackenhorst; T. Wick; A time-space flux-corrected transport finite element formulation for solving multi-dimensional advection-diffusion-reaction equations, Journal of Computational Physics, 2019, 396(1): 31-53.

10. Z.L. Zhang; T. Ma; D. Feng; M.B. Liu; A new formula for predicting the crater size of a target plate produced by hypervelocity impact, International Journal of Computational Methods, 2019, 17(1).

11. Z.L. Zhang; D. Feng; T. Ma; M.B. Liu; Predicting the damage on a target plate produced by hypervelocity impact using a decoupled finite particle method, Engineering Analysis with Boundary Elements, 2019, 98: 110-125.

12. D. Feng; I. Neuweiler; U. Nackenhorst; A time-space FCT-FE formulation for 1D time dependent advection-diffusion equation, PAMM, 2018, 18(1).

13. Z.L. Zhang; T. Ma; M.B. Liu; D. Feng; Numerical study on high velocity impact welding using a modified SPH method, International Journal of Computational Methods, 2018, 15(3).

14. Z.L. Zhang; D. Feng; M.B. Liu; Investigation of explosive welding through whole process modeling using a density adaptive SPH method, Journal of Manufacturing Processes, 2018, 35(35): 169-189

15. D. Feng; I.Neuweiler; U.Nackenhorst; A spatially stabilized TDG based finite element framework for modeling biofilm growth with a multi-dimensional multi-species continuum biofilm model, Computational Mechanics, 2017, 59(6): 1049-1070.

16. H. Rath; D. Feng; I. Neuweiler; N.S. Stumpp; U. Nackenhorst; M. Stiesch; Biofilm formation by the oral pioneer colonizer Streptococcus gordonii: an experimental and numerical study, FEMS Microbiology Ecology, 2017, 93(3).

17. M.B. Liu; Z.L. Zhang; D. Feng; A density-adaptive SPH method with kernel gradient correction for modeling explosive welding, Computational Mechanics, 2017, 3(60): 513-529

18. G.Y. Wang; G.R. Liu; Q. Peng; Su. De; D. Feng; M.B. Liu; A 3D smoothed particle hydrodynamics method with reactive flow model for the simulation of ANFO, Propellants Explosives Pyrotechnics, 2015, 4(40): 566-575.

19. D. Feng; M.B. Liu,; H.Q. Li; G.R. Liu; Smoothed particle hydrodynamics modeling of linear shaped charge with jet formation and penetration effects, Computers & Fluids, 2013, (86): 77-85.

图书章节

D. Feng, H. Rath, I. Neuweiler, N. Stumpp, U. Nackenhorst; A deeper insight of a multi-dimensional continuous biofilm growth model: experimental observation and parameter studies. Biomedical Technology: Modeling, Experiments and Simulation, Lecture Notes in Applied and Computational Mechanics, Springer, 2018, 257-272.

会议全文

D. Feng, I. Neuweiler, U. Nackenhorst; Numerical simulation of 2D multi-species bacterial biofilm growth using the combined TDG-FIC finite element method. 6th International Conference on Computational Bioengineering, ICCB 2015; Barcelona, Spain.

M. Liu, D. Feng, Z. Guo; Recent developments of SPH in modeling explosion and impact problems. 3rd International Conference on Particle-Based Methods. Fundamentals and Applications, Particles 2013; Stuttgart, Germany.

冯殿垒, 刘谋斌(2012); 聚能装药线性射流形成的SPH数值模拟. 2012颗粒材料计算力学会议, CMGM-2012; 张家界, 中国.