| Flow dynamics and sediment transport in vegetated rivers: A review W Huai, S Li, GG Katul, M Liu, Z Yang Journal of Hydrodynamics 33 (3), 400-420, 2021 | 179 | 2021 |
| New formulation for the effective relative roughness height of open channel flows with submerged vegetation S Li, H Shi, Z Xiong, W Huai, N Cheng Advances in Water Resources 86, 46-57, 2015 | 50 | 2015 |
| Analytical solutions of velocity profile in flow through submerged vegetation with variable frontal width WJ Wang, WX Huai, S Li, P Wang, YF Wang, J Zhang Journal of hydrology 578, 124088, 2019 | 35 | 2019 |
| Solute dispersion in wetland flows with bed absorption H Wang, Z Zhu, S Li, W Huai Journal of Hydrology 579, 124149, 2019 | 27 | 2019 |
| Analyzing solute transport in modeled wetland flows under surface wind and bed absorption conditions H Wang, S Li, Z Zhu, W Huai International Journal of Heat and Mass Transfer 150, 119319, 2020 | 26 | 2020 |
| Mean Velocity and Shear Stress Distribution in Floating Treatment Wetlands: An Analytical Study S Li, G Katul, W Huai Water Resources Research, 2019 | 23 | 2019 |
| Contaminant removal efficiency of floating treatment wetlands S Li, G Katul Environmental Research Letters 15 (10), 1040b7, 2020 | 15 | 2020 |
| United formula for the friction factor in the turbulent region of pipe flow S Li, W Huai PloS one 11 (5), e0154408, 2016 | 15 | 2016 |
| Prediction of mean turbulent flow velocity in a permeable-walled pipe S Li, W Huai, NS Cheng, G Coco Journal of Hydrology 573, 648-660, 2019 | 10 | 2019 |
| Roughness-induced critical phenomenon analogy for turbulent friction factor explained by a co-spectral budget model S Li, G Katul Physics of Fluids 33 (10), 2021 | 8 | 2021 |
| Cospectral budget model describes incipient sediment motion in turbulent flows S Li, G Katul Physical Review Fluids, 2019 | 8 | 2019 |
| Deep generative data assimilation in multimodal setting Y Qu, J Nathaniel, S Li, P Gentine Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern …, 2024 | 7 | 2024 |
| A Co‐Spectral Budget Model Links Turbulent Eddies to Suspended Sediment Concentration in Channel Flows S Li, AD Bragg, G Katul Water Resources Research 58 (3), e2021WR031045, 2022 | 7 | 2022 |
| Incipient sediment motion in vegetated open-channel flows predicted by critical flow velocity X Wang, S Li, Z Yang, W Huai Journal of Hydrodynamics 34 (1), 63-68, 2022 | 7 | 2022 |
| United friction resistance in open channel flows S Li, H Shi, W Xue, W Huai Journal of Hydrodynamics, Ser. B 27 (3), 469-472, 2015 | 7 | 2015 |
| A unified friction factor formulation: Bridging laminar and turbulent friction factor with critical points analysis WJ Wang, S Li, W Huang, Z Han, WH Wang Physics of Fluids 36 (1), 2024 | 4 | 2024 |
| Solute transport in laminar channel flows with floating vegetation islands: Dispersion and vegetation absorption Y Ai, H Wang, S Li, W Huai Communications in Nonlinear Science and Numerical Simulation 116, 106883, 2023 | 3 | 2023 |
| The role of geographical spreaders in infectious pattern formation and front propagation speeds S Li, C Henriquez, G Katul Physica D: Nonlinear Phenomena 440, 133460, 2022 | 3 | 2022 |
| Reduced sediment settling in turbulent flows due to Basset history and virtual mass effects S Li, AD Bragg, G Katul Geophysical Research Letters 50 (22), e2023GL105810, 2023 | 2 | 2023 |
| Effects of hydrometeor droplet characteristics on wind turbine blade leading edge erosion: A numerical study S Li, RJ Barthelmie, GP Bewley, SC Pryor Journal of Physics: Conference Series 1452 (012053), doi:10.1088/1742-6596 …, 2020 | 1 | 2020 |
Gabriel KatulDuke UniversityΗ διεύθυνση ηλεκτρονικού ταχυδρομείου έχει επαληθευτεί στον τομέα duke.edu
