| Biosynthesized silica-based zinc oxide nanocomposites for the sequestration of heavy metal ions from aqueous solutions R Garg, R Garg, NO Eddy, AI Almohana, SF Almojil, MA Khan, SH Hong Journal of King Saud University-Science 34 (4), 101996, 2022 | 57 | 2022 |
| Clear water abutment scour in a compound channel for extreme hydrologic events SH Hong, TW Sturm, T Stoesser Journal of Hydraulic Engineering 141 (6), 04015005, 2015 | 37 | 2015 |
| Interaction of bridge contraction scour and pier scour in a laboratory river model SH Hong | 33 | 2005 |
| Effect of Bridge Abutment Length on Turbulence Structure and Flow through the Opening TS Ken Vui Chua, Bruño Fraga, Thorsten Stoesser, Seung Ho Hong Journal of Hydraulic Engineering 145 (6), 04019024, 2019 | 32 | 2019 |
| Anthropogenic impacts on phytosociological features and soil microbial health of Colchicum luteum L. an endangered medicinal plant of North Western Himalaya RA Rather, H Bano, SA Padder, K Perveen, LM Al Masoudi, SS Alam, ... Saudi Journal of Biological Sciences 29 (4), 2856-2866, 2022 | 31 | 2022 |
| Scour around an erodible abutment with riprap apron over time SH Hong, I Abid Journal of Hydraulic Engineering 145 (6), 06019007, 2019 | 23 | 2019 |
| Turbulence characteristics before and after scour upstream of a scaled-down bridge pier model SO Lee, SH Hong Water 11 (9), 1900, 2019 | 21 | 2019 |
| A Comprehensive Method of Calculating Maximum Bridge Scour Depth R Saha, S Lee, S Hong Water 10 (11), 1572, 2018 | 19 | 2018 |
| Combining individual scour components to determine total scour T Sturm, I Abid, B Melville, X Xiong, T Stoesser, BF Bugallo, KV Chua, ... NCHRP Web-Only Document, 2018 | 19 | 2018 |
| Prediction of clear-water abutment scour depth in compound channel for extreme hydrologic events SH Hong Georgia Institute of Technology, 2013 | 19 | 2013 |
| Laboratory and theoretical evaluation of impact of packing density, particle shape, and uniformity coefficient on erodibility of coarse‐grained soil particles H Choo, Q Zhao, SE Burns, TW Sturm, SH Hong Earth Surface Processes and Landforms 45 (7), 1499-1509, 2020 | 18 | 2020 |
| Physical model study of bridge contraction scour SH Hong, I Abid KSCE Journal of Civil Engineering 20, 2578-2585, 2016 | 18 | 2016 |
| Time-averaged turbulent velocity flow field through the various bridge contractions during large flooding KS Yoon, SO Lee, SH Hong Water 11 (1), 143, 2019 | 16 | 2019 |
| Effect of submergence and apron length on spillway scour: Case study S Hong, C Biering, TW Sturm, KS Yoon, JA Gonzalez-Castro Water 7 (10), 5378-5395, 2015 | 16 | 2015 |
| Investigation of the effects of climate variability, anthropogenic activities, and climate change on streamflow using multi-model ensembles SA Shah, M Jehanzaib, J Yoo, S Hong, TW Kim Water 14 (4), 512, 2022 | 14 | 2022 |
| Influence of lateral flow contraction on bed shear stress estimation by using measured turbulent kinetic energy K Rehman, SH Hong Experimental Thermal and Fluid Science 139, 110742, 2022 | 11 | 2022 |
| Effect of complex shape of pier foundation exposure on time development of scour SO Lee, I Abid, SH Hong Environmental Fluid Mechanics 21, 103-127, 2021 | 9 | 2021 |
| Physical modeling of abutment scour for overtopping, submerged orifice, and free surface flows SH Hong, TW Sturm Scour and Erosion, 590-598, 2010 | 9 | 2010 |
| Tree-based machine learning models for prediction of bed elevation around bridge piers K Rehman, YC Wang, M Waseem, SH Hong Physics of Fluids 34 (8), 2022 | 8 | 2022 |
| Incident wave run-up prediction using the response surface methodology and neural networks K Rehman, H Khan, YS Cho, SH Hong Stochastic Environmental Research and Risk Assessment 36 (1), 17-32, 2022 | 8 | 2022 |
Thorsten StoesserUniversity College LondonDirección de correo verificada de ucl.ac.uk
