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*Li, W., L. Zhu, P. Hu and N. Cheng (2024). Mechanisms and Morphological Time Scales of AvulsedChannel Process on the Modern Yellow River Delta. Water Resources Research, 10.1029/2023WR036544. (SCI)
李立杰,张一鸣,李薇,胡鹏 (2024).高桩码头区域波流耦合泥沙冲淤模拟及动力特性分析——以宁波穿山港为例, 海洋工程,https://link.cnki.net/urlid/32.1423.P.20240627.1415.006.
*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 (EI),录用待刊。
*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, DOI:10.1029/2021WR031896. (SCI)
*Hu, P., Ji, A., *Li, W., Cao, Z. (2023). Numerical modeling of levee breach with improved geo-failure operator. Journal of Hydraulic Research. (SCI)
*Hu, P., Li, Y., Gong, C. L., Li, W. (2022). Forward-modeling co-evolution of turbidity currents, sediment transport and cyclic steps in the Rio Muni Basin. International Journal of Sediment Research. (SCI)
*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.(SCI)
曹志先,胡鹏,李薇,李季. 泥沙运动力学(教材),中国水利水电出版社,2022.
*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. (SCI)
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. (SCI)
*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. (SCI)
陈茁,*李薇,胡鹏,贺治国. (2021). 钱塘江河势变迁与径潮流相互作用的数模研究. 海洋工程.
王长金,*胡鹏,李薇,李志威(2021). 河流分汊成因与演变机制的研究综述. 水利水电科技进展.
*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. (SCI)
李薇,谢国虎,胡鹏,贺治国,王远见 (2019), 黄河洪水洪峰增值机理及影响因素研究, 水利学报 (EI)。
李薇,邹吉玉,胡鹏 (2019),基于孔隙率和局部时间步长的城市洪水模拟,浙江大学学报工学版 (EI)。
No. 9 of total 24 co-authors. Soil Erosion and River Sedimentation Research in Selected Countries [M], 2019, China Water&Power Press, ISBN 978-7-5170-7628-5.
Hu P, Han JJ, Li W, et al. (2018). Numerical investigation of a sandbar formation and evolution in a tide-dominated estuary using a hydro-sediment-morphodynamic model. Coastal Engineering Journal (SCI).
Wu WM, *Li W. (2018). Porosity of bimodal sediment mixture with particle filling. International Journal of Sediment Researach, 32(2), 253-259.
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(EI).
*Li, W., Su, Z., van Maren, D.S., Wang, Z., de Vriend, H.J. (2017). Mechanisms of hyperconcentrated flood propagation in a dynamic channel-floodplain system. Advances in Water Resources, 107, pp. 470-489.
贺治国,翁浩轩,高冠, 李薇*,吴钢锋,廖文景,冉启华.(2017).植被群影响下动床洪水数值模拟研究. 应用基础与工程科学学报(EI), 25(1):1-10.
Li W, *Hu P, Pahtz T, He ZG, Cao ZX. (2017). Limitations of empirical transport relations for shallow water and their consequences for swash zone modelling. Journal of Hydraulic Research, 55, 114-120. (SCI)
Hu, P., Li, W., *He, Z., Pahtz, T., and Yue, Z. (2015). Well-balanced and flexible modelling of swash hydrodynamics and sediment transport. Coastal Engineering. (SCI, ZJU Top)
*Li, W., Z. B. Wang, H. J. de Vriend, and D. S. van Maren (2014), Long-term effects of water diversions on the longitudinal flow and bed profiles, Journal of Hydraulic Engineering, ASCE, doi: 10.1061/(ASCE)HY.1943-7900.0000856. [SCI, ZJU 100]
*Li, W., D. S. van Maren, Z. B. Wang, H. J. de Vriend, and B. S. Wu (2014), Peak discharge increase in hyperconcentrated floods, Advances in Water Resources, Elsevier, 67,65-77,DOI: 10.1016/j.advwatres.2014.02.007. [SCI, ZJU TOP]
*Li, W., Z. B. Wang, D. S. van Maren, H. J. de Vriend, and B. S. Wu (2014), Relative role of bed roughness change and bed erosion on peak discharge increase in hyperconcentrated floods, Advances in Geosciences, EGU (Special issue: Proceedings of river, coastal, and morphodynamics).
*Li, W., H. J. de Vriend, Z. B. Wang, and D. S. van Maren (2013), Morphological modeling using a fully coupled, Total variation diminishing upwind-biased centered scheme, Water Resources Research, AGU, 49, 3547-3565, doi: 10.1002/wrcr.20138. [SCI, ZJU TOP]
Li, W., Z. B. Wang, D. S. van Maren, H. J. de Vriend, and B. S. Wu (2013), Relative role of bed roughness, bed erosion and channel storage on peak discharge increase in hyperconcentrated floods, In: Proceedings of river, coastal, and morphodynamics,. [abstract and oral presentation]
Li, W., Z. B. Wang, H. J. de Vriend, and B. S. Wu (2012), Comparative roles of roughness reduction and bed erosion on downstream peak discharge increase, In: the 5th International Yellow River Forum,. [oral presentation]
Li, W., Z. B. Wang, H. J. de Vriend, and D. S. van Maren (2011), Investigation to the mechanisms of the downstream increasing peak discharge in hyperconcentrated floods, In: Proceedings of river, coastal, and morphodynamics,. [oral presentation]
Li, W., Z. B. Wang, and H. J. de Vriend (2010), The impact of water diversion on river morphology and its implications for the Lower Yellow River, In: the 11th international symposium on river sedimentation, Cape Town, South Africa. [oral presentation]
李薇,刘孝盈,徐炳丰,吴保生 (2010),英国土壤侵蚀科学研究综述,中国水土保持科学,8(1),108-113.
李薇,刘孝盈,徐炳丰,吴保生 (2009),英国土壤侵蚀及治理的研究和启示,中国水利水电科学研究院学报,7(3).
国际泥沙研究培训中心研究报告“世界典型国家土壤侵蚀与泥沙科技前沿研究” (课题报告参加编写人员,2008年,北京).
李薇,等 (2006). 堤防护岸抛石落距计算,收录于《长江堤防建设管理及护岸工程论文集》,长江堤防建设管理及护岸工程(第七届)技术经验交流会,武汉.
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