胡鹏 - 浙江大学 - 海洋学院

个人简介

胡鹏：浙江大学教授/博导，担任海洋学院教学管理部部长、港航研究所副所长/支部书记。2007年本科毕业于武汉大学；2012年和2013年分别获Heriot-Watt大学和武汉大学博士学位；2015年晋升副教授；2020年晋升教授；担任中国力学学会环境力学专业委员会特邀委员、国际水文协会陆地侵蚀中国青年委员会副主席、浙大舟山海洋中心工程与环境所总工；主持十四五国家重点研发项目课题、国家自然科学基金青年和面上等国家级项目；合作出版教材1本《泥沙运动力学》，发表期刊论文80余篇，被引用1000余次。研究兴趣高性能数学模型理论与技术，包括：算法研究（并行算法，人工智能）；模型研究（洪水，异重流/浊流，水环境，深海热液）。河流和海洋工程防灾减灾， (1) 冲刷/淤积（海岸/港口/航道/码头/桥墩/海上风电基础）;(2) 水沙灾害预警预报（河流洪水，城市雨洪，风暴潮，溃堤/溃坝洪水，滑坡泥石流，尾矿库溃决）海洋资源与能源高效开发利用部分奖励 2023：全国高校青年教师教学竞赛工科组二等奖 2022: 浙江大学三育人先进个人 2021：浙江省高校青年教师教学竞赛工科组特等奖；浙江大学教学创新大赛正高组二等奖；交通运输部长航局科技进步二等奖；浙江省海洋科学技术进步一等奖；中国水运建设行业协会科技进步一等奖 2020：国万青年拔尖人才 2019：浙江大学青年教师教学竞赛一等奖 2018：浙江省自然科学基金杰出青年项目 2017：海洋领域全国优秀科技青年 2014：湖北省优秀博士学位论文奖 2003-2012：武汉大学优秀毕业生；全国大学生数学建模竞赛甲组一等奖

研究领域

高性能数学模型理论与技术，包括：算法研究（并行算法，人工智能）；模型研究（洪水，异重流/浊流，水环境，深海热液）。河流和海洋工程防灾减灾， (1) 冲刷/淤积（海岸/港口/航道/码头/桥墩/海上风电基础）;(2) 水沙灾害预警预报（河流洪水，城市雨洪，风暴潮，溃堤/溃坝洪水，滑坡泥石流，尾矿库溃决）海洋资源与能源高效开发利用

近期论文

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发表论文 (* 通讯作者) *Li, W., Zhu, L., Hu, P., Cheng, N. (2024). Mechanisms and Morphological Time Scales of Avulsed Channel Process on the Modern Yellow River Delta. Water Resources Research. *Li, W., Zhang, Y., and Hu, P. (2024). Fully coupled morphological modelling under the combined action of waves and currents. Advances in Water Resources. Zhao, *Hu, P., Li, W., Cao, Z., and Li, Y. (2024). An Engineering-Oriented Shallow-water Hydro-Sediment-Morphodynamic Model using the GPU-acceleration and the hybrid LTS/GMaTS method. Advances in Engineering Software. *Hu, P, Ji, A., Li, W., Tang, X., Xiao, W., and Cao, Z. (2024). Capacity and non-capacity sediment transport characteristics in overtopping-induced dam failure process. Journal of Hydraulic Engineering ASCE. *Hu, P., Azam, M., Li, W., Dai, L., and Zhao, H. (2024). Numerical investigation about effects of flow sediment-storage varaition on capacity modelling of morphological evolutions. Computers & Fluids. *Li, W., Zhang, Y., Hu, P., Chen, F. Y., and He, Z. G. (2024). Evolutions of hydrodynamics and sediment transport pattern in the Qiantang Estuary (China) in response to multidecadal embankment constructions. Estuarine Coastal and Shelf Science. Ma, H., Xu, L., Okon, S. U., Hu, P., Li, W., Shi, H., and *He, Z. (2024). Sediment transport and bed erosion during storm surge using a coupled hydrodynamic and morphodynamic model considering wave and current interaction. Coastal Engineering. https://doi.org/10.1016/j.coastaleng.2023.104409 Tao, J., Hu, P., Xie, J., Ji, A., *Li, W. (2024). Application of the Tidally averaged Equilibrium Cohesive Sediment Concentration for Determination of Physical Parameters in the Erosion-Deposition Fluxes. Estuarine, Coastal and Shelf Science. Lyu, B., Li, J., *Hu, P., et al. (2024). High-resolution hydro-sediment-morphodynamic modelling of an anabranching river on multiyear timescales: a case study of Shashi Reach in Middle Yangtze River. Journal of Hydrology. Lyu, B., Li, Y., *Hu, P. (2024). Effects of bed sediment conditions on debris flow propagation from the two-phase flow modelling perspective. Advances in Water Resources. https://doi.org/10.1016/j.advwatres.2023.104592 Zeng, H., *Hu, P., He, Z., Yao, J., and Yang, Z. (2024). Numerical Simulation Study of Seafloor Hydrothermal Circulation Based on HydrothermalFoam: A Case Study of the Wocan-1 Hydrothermal Field, Carlsberg Ridge, Indian Ocean. Journal of Marine Science and Engineering. *Li, W., Liu, B. R., Hu, P. (2023). Fast modelling of vegetated flow and sediment transport over mobile beds using shallow water equations with anisotropic porosity. Water Resources Research. https://doi.org/10.1029/2021WR031896 He Z., ···, Hu P., ···. (2023). The role of hydrodynamics for the spatial distribution of high-temperature hydrothermal vent-endemic fauna in the deep ocean environment. Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2023.166714 Wu, J., *Hu, P., Zhao, Z., Lin, Y., and He, Z. (2023). A GPU-accelerated and LTS-based 2D hydrodynamic model for the simulation of rainfall-runoff processes. Journal of Hydrology. https://doi.org/10.1016/j.jhydrol.2023.129735 *Hu, P., Ji, A., Li, W., Cao, Z. (2023). Numerical modeling of levee breach with improved geo-failure operator. Journal of Hydraulic Research. https://doi.org/10.1080/00221686.2023.2202661 *Hu, P., Li, Y., Gong, C. L., Li, W. (2023). Forward-modeling co-evolution of turbidity currents, sediment transport and cyclic steps in the Rio Muni Basin. International Journal of Sediment Research. https://doi.org/10.1016/j.ijsrc.2022.09.006 Xie, J., *Zhu, C.,*Hu, P., Pan, D. (2023). Particle segregation within bi-disperse turbidity current evolution. Journal of Fluid Mechanics. https://doi.org/10.1017/jfm.2023.623 【封面论文】 Xie, J., *Hu, P., *Zhu, C. L., Yu, Z. S., Pahtz, T. (2023). Turbidity currents propagating down an inclined slope: particle auto-suspension. Journal of Fluid Mechanics. https://doi.org/10.1017/jfm.2022.1041 *Li, W., Zhu, L. H., Xie, G. H., Hu, P., and de Vriend, H. J. (2022). Quantification of the influencing factors for flood peak discharge increase in the Lower Yellow River. Journal of Hydrology. https://doi.org/10.1016/j.jhydrol.2022.128329 *Xie, J., *Hu, P. (2022). A multi-stage normalization model for predicting the porosity of the multi-sized mixtures. Powder Technology. https://doi.org/10.1016/j.powtec.2022.117906 Xie, J., *Hu, P., *Pahtz, T., He, Z. G., Cheng, N. S. (2022). Fluid-particle interaction regimes during the evolution of turbidity currents from a coupled LES/DEM model. Advances in Water Resources., 163, 104171. *Hu, P., Lyu, B et al. (2022). A new two-phase shallow water hydro-sediment-morphodynamic model based on the HLLC solver and the hybrid LTS/GMaTS approach. Advances in Water Resources. https://doi.org/10.1016/j.advwatres.2022.104254 *Hu, P.,Deng, S. Y., Zhao, Z. X., Cao, Z. X., and Liu, H. H. (2022). Dredging volume estimation and dredging timing for waterway maintenance: a case study using a hydro-sediment-morphodynamic model with the transient dredging effects. Journal of Waterway, Port, Coastal and Ocean Engineering. https://doi.org/10.1061/(ASCE)WW.1943-5460.0000718 *Hu, P., Zhao, Z. X. et al. (2022). A GPU-Accelerated and LTS-Based Finite Volume Shallow Water Model. Water, 14(6), 922. https://doi.org/10.3390/w14060922 *Li, W., Liu, B. R., Hu, P., He, Z. G., Zou, J. Y. (2021). Porous shallow water modelling for urban floods in the Zhoushan City, China. Frontiers in Earth Science, 9, 687311. https://doi.org/10.3389/feart.2021.687311 *Pahtz, T., Liu, Y., *Xia, Y. Z., Hu, P., He, Z. G. (2021). "Unified model of threshold and rate of equilibrium nonsuspended sediment transport across most aeolian and fluvial environments." Journal of Geophysical Research-Earth Surface, 126(4), e2020JF005859. https://doi.org/10.1029/2020JF005859 Yue, Z. Y., *Liu, Q. Q., Huang, W., Hu, P., Cao, Z. X. (2021). "A 2D well-balanced coupled model of water flow, sediment transport, and bed evolution based on unstructured grids with an efficient variable storage treatment." International Journal of Sediment Research, 36(1), 151-160. https://doi.org/10.1016/j.ijsrc.2020.07.005 *Hu, P., Lei, Y. L., Deng, S. Y., Cao, Z. X, Liu, H. H., He, Z. G. (2021). "Role of bar-channel interactions in a dominant branch shift: the Taipingkou waterway, Yangtze River, China." River Research and Applications, 37(3), 494-508. https://doi.org/10.1002/rra.3761 *Hu, P., Tao, J. Y., Ji, A. F., Li, W, He, Z. G. (2021). A Computationally efficient shallow water model for mixed cohesive and non-Cohesive sediment transport in the Yangtze estuary. Water, 13(10), 1435.https://doi.org/10.3390/w13101435 Adebiyi, A., *Hu, P. (2022). A numerical study of the frontal coarsening, rear fining and the impacts of sediment composition on erodible nonuniform debris flows. Journal of Hydrodynamics, 34, 620-633. Adebiyi, A., *Hu, P. (2021). A numerical study on impacts of sediment erosion and deposition on debris flow propagation. Water, 13(12), 1698. https://doi.org/10.3390/w13121698 Hu, Y., *Hu, P., Li, W., Liao, W. (2021). A hybrid first-order and WENO scheme for high resolution and computationally efficient modeling of pollutant transport. Computers & Fluids, 225, 104951. https://doi.org/10.1016/j.compfluid.2021.104951 *Hu, P., Li, Y. (2020). "Numerical modeling of the propagation and morphological changes of turbidity currents using a cost-saving strategy of solution updating." International Journal of Sediment Research, 35(6), 587-599. *Hu, P., Xie, J. F., Li, W., He, Z. G., Marsooli, R., Wu, W. W. (2020). "A RANS numerical study of experimental swash flows and its bed shear stress estimation." Applied Ocean Research, 100, 102145. Hu, P., Tan, L. M., *He, Z. G. (2020). "Numerical investigation on the adaptation of dam-break flow-induced bed load transport to the capacity regime over a sloping bed." Journal of Coastal Research, DOI: 10.2112/JCOASTRES-D-19-00120.1. *He, Z. G., Zhao, L., Zhu, R., Hu, P. (2019). "Separation of particle-laden gravity currents down a slope in linearly stratified environments." Physics of Fluids, 31, 106602, doi: 10.1063/1.5116067. *Hu, P., Tao, J. Y., Li, W., He, Z. G. (2019). "A layer-averaged numerical study on the effect of Reynolds number on lock-exchange turbidity currents." Journal of Hydraulic Research, 58(4), pp. 628-637 *Hu, P., Lei, Y. L., Han, J. J., Cao, Z. X., Liu, H. H, Yue, Z. Y, He, Z. G. (2019). "An improved local-time-step for 2D shallow water modeling based on unstructured grids." Journal of Hydraulic Engineering ASCE, 145(12), 06019017. *Hu, P., Lei, Y. L., Han, J. J., Cao, Z. X., Liu, H. H., He, Z. G. (2019). "Computationally efficient hydro-morphodynamic modelling using a Hybrid local-time-step and the global maximum-time-step." Advances in Water Resources, 127, 26-38. *Hu, P., Han, J. J., Li, W., Sun, Z. L, He, Z. G. (2018). "Numerical investigation of a sandbar formation and evolution in a tide-dominated estuary using a hydro-sediment-morphodynamic model." Coastal Engineering Journal, 60(4), 466-483. He, Z. G., Zhao, L., *Hu, P., Yu, C., Lin, Y. T. (2018). "Investigations of dynamic behaviors of lock-exchange turbidity currents down a slope basedon direct numerical simulation." Advances in Water Resources, 119, 164-177. Zhao, L., *He, Z. G., Lv, Y. F., Lin, Y. T., Hu, P., Pahtz, T. (2018). "Front velocity and front location of lock-exchange gravity currents descending a slope in a linearly stratified environment." Journal of Hydraulic Engineering ASCE, 144(11), 04018068. He, Z. G., Zhao, L., Lin, T., Hu, P., Lv, Y. F., Ho, H. C., Lin, Y. T. (2017). "Hydrodynamics of gravity currents down a ramp in linearly stratified environments." Journal of Hydraulic Engineering ASCE, 143(3), 04016085. He, Z. G., Wu, T., Weng, H. X., *Hu, P., Wu, G. F. (2017). "Numerical simulation of dam-break flow and bed change considering the vegetation effects". International Journal of Sediment Research, 32(1), 105-120. Li, W., *Hu, P., Pahtz, T., He, Z. G., Cao, Z. X. (2017). "Limitations of empirical transport relations for shallow water and their consequences for swash zone modelling." Journal of Hydraulic Research, 55, 114-120. *Cao, Z. X., Hu, P., Pender, G., Liu, H. H. (2016). "Non-capacity transport of nonuniform bed load sediment in alluvial rivers." Journal of Mountain Science, 13(3), 377-396. Qian, H. L., Cao, Z. X., Pender, G., Liu, H. H, Hu, P. (2015). "Well-balanced numerical modelling of nonuniform sediment transport in alluvial rivers." International Journal of Sediment Research. https://doi.org/10.1016/j.ijsrc.2015.03.002 Yue, Z. Y., Liu, H. H., Li, Y., *Hu, P., Zhang, Y. (2015). "A well-balanced and fully coupled non-capacity model for dam-break flooding." Mathematical Problems in Engineering. Hu, P., Pahtz, T., *He, Z. G. (2015). "Is it appropriate to model turbidity currents with three equation model?" Journal of Geophysical Research: Earth Surface, 120, 1153-1170. Hu, P., Li, W., *He, Z. G., Pahtz, T., Yue, Z. Y. (2015). "Well-balanced and flexible modelling of sw,ash hydrodynamics and sediment transport." Coastal Engineering, 96, 27-37. Li, Z. J., *Cao, Z. X., Pender, G., Hu, P. (2014). "Numerical analysis of adaptation-to-capacity length for fluvial sediment transport." Journal of Mountain Science, 11(6), 1491-1498. *Hu, P., Cao, Z. X., Pender, G., Liu, H. H. (2014). "Numerical Modelling of riverbed grain size stratigraphic evolution." International Journal of Sediment Research, 29(3), 329-343. *Hu, P., Cao, Z. X., Pender, G. (2012). "Well-balanced 2D coupled modelling of submarine turbidity currents and their morphological effects." Maritime Engineering ICE. *Hu, P, Cao, Z. X., Pender, G., Tan, G. M. (2012). "Numerical modelling of turbidity currents in Xiaolangdi Reservoir, Yellow River, China." Journal of Hydrology, 464-465, 41-53. *Cao, Z. X., Li, Z. J., Pender, G., Hu, P. (2012). "Non-capacity versus capacity model for fluvial sediment transport." Water Management ICE, 165, 193-211. *Cao, Z. X, Hu, P., Pender, G. (2011). "Multiple time scales of fluvial processes with bed load sediment and their implications for mathematical modelling." Journal of Hydraulic Engineering, ASCE, 137(3), 267-276. *Cao ZX, Pender G, Hu P. (2011). Multiple time scales of fluvial processes - theory and applications. Theoretical & Applied Mechanics Letters, 1. *Cao, Z. X., Hu, P., Pender, G. (2010). "Reconciled bed load sediment transport rates in ephemeral and perennial rivers." Earth Surface Processes and Landforms, 35(14), 1655-1665. Hu, P., *Cao, Z. X. (2009). "Fully coupled mathematical modelling of turbidity currents." Advances in Water Resources, 32(1), 1-15. *Cao, Z. X., Hu,P. (2008). "Comment on ‘Long waves in erodible channels and morphodynamic influence’ by Stefano et al." Water Resources Research, AGU. *李薇，朱乐红，胡鹏. (2023). 三角洲河道发育演变特征与影响机制研究. 应用基础与工程科学学报，接受待刊. 彭珉，胡鹏*，管大为. (2022). 基于混合网格和局部时间步长技术的溃决洪水快速模拟. 水动力学研究与进展，接受待刊. 胡豫英，*胡鹏，朱杰，廖卫红. (2022). 附着性藻类生长-迁移模型及其在南水北调中线工程中的应用. 水资源与水工程学报, 33(1), 61-68. 陈茁，*李薇，胡鹏，贺治国. (2022). 钱塘江河势变迁与径潮流相互作用的数模研究. 海洋工程, 40(1), 149-159. 孙孟喆，*胡鹏，李有为，刘奇峰，曹志先. (2022). 航道工程作用下福姜沙水道滩槽演变特性对水沙过程响应的数值研究. 海洋工程, 40(6), 62-75. 王长金，*胡鹏，李薇，李志威（2022). 河流分汊成因与演变机制的研究综述. 水利水电科技进展, 42(3), 112-120. 王长金，*胡鹏. (2022). 网格尺寸及初始扰动对辫状河流演变模拟的影响. 泥沙研究, 47(4), 30-37. *胡鹏，吕冰晗，李季，曹志先. (2022). 明渠凹槽泥沙回填过程的水沙两相相互作用. 泥沙研究, 47(3), 23-30 *胡鹏，邓芍怡，赵自雄;曹志先;刘怀汉;贺治国. (2021). 基于水沙床耦合的滩槽冲淤模拟及疏浚量计算. 浙江大学学报-工学版, 55(4), 733-741. *胡鹏，张维凯，韩健健. (2020). 基于贝叶斯定理的异重流泥沙侵蚀经验式不确定性分析. 应用基础与工程科学学报, 28(2), 287-298. 李薇，邹吉玉，*胡鹏. (2020). 基于孔隙率和局部时间步长技术的城市洪水模拟. 浙江大学学报, 54(3), 614-622. *胡鹏，姬奥飞，陶俊余.(2020). 基于局部时间步长方法的潮流数值模型研究及应用. 海洋工程, 38(1), 111-119. 张维凯，*胡鹏. (2020). 异重流水卷吸经验式不确定性对数学模型的影响. 上海交通大学学报, 54(1), 35-42. 雷云龙，*胡鹏等 (2019). 特征流量级对窜沟形成和发展影响的数值研究, 水力发电学报, 38(4), 43-52. 徐卢笛,贺治国,潘佳佳,*胡鹏.(2019). 风暴潮过程中波浪对地形冲淤演变影响的数值研究波流耦合,水力发电学报, 38(3), 23-31. 李薇，谢国虎，*胡鹏，王远见. (2019). 高含沙洪水洪峰增值机理及影响因素研究，水利学报, 50(9), 1111-1122. *胡鹏, 韩健健，雷云龙. (2019). 基于局部分级时间步长技术的水沙耦合数值模拟. 浙江大学学报工学版, 53(4), 743-752. 李薇，苏正华，徐弋琅，*胡鹏，贺治国，吴保生. (2018). 考虑水沙相互作用的潮波理论模型及其在钱塘江河口的应用. 应用基础与工程科学学报, 26(5), 954-964. 赵亮, 吕亚飞，贺治国*, 林颖典, 胡鹏, 林挺.(2017). 分层水体中障碍物对斜坡异重流运动特性的影响. 浙江大学学报工学版, 51(12), 946-953. 胡鹏，胡元园等. (2017). 异重流与周围环境物质交换经验公式对比研究. 水科学进展, 28(2), 257-264. 张巍，贺治国，谈利明，高冠，何昊哲，胡鹏，冉启华. (2017). 基于定点连续观测的钱塘江涌潮特性研究. 水动力学研究与进展，32(2), 253-259. 贺治国, 林挺, 赵亮, 林颖典, 胡鹏, 冉启华, 何昊哲. (2016). 异重流在层结与非层结水体中沿斜坡运动的实验研究. 中国科学：技术科学, 46(5): 1-9. 李志晶, 曹志先, 胡鹏, Gareth Pender. (2013). 风沙与水沙运动多重时间尺度与深度积分模式. 力学学报, 45(2), 158-163.

学术兼职

中国力学学会环境力学专业委员会特邀委员国际水文协会陆地侵蚀中国青年委员会副主席浙大舟山海洋中心工程与环境所总工