Assoc Prof Dr. Xianmeng Meng | Hydrology | Best Researcher Award
Associate Professor, China University of Geosciences, China.
Dr. Xianmeng Meng is an Associate Professor at China University of Geosciences (Wuhan), specializing in hydrology and water resources. With over two decades of expertise in hydrological processes, groundwater simulation, and watershed hydrology, he has made significant contributions to understanding and managing water resources. Dr. Meng has also served as a Visiting Research Fellow at The University of Tokyo, reflecting his global engagement in the field.
Profile
Education and Professional Background:
- 2000-2004: Hohai University, Hydrology and Water Resources, Bachelor Degree
- 2004-2007: Hohai University, Hydrology and Water Resources, Master Degree
- 2007-2010: Tsinghua University, Hydraulic Engineering, Doctor Degree
- 2010-2016: Lecturer, China University of Geosciences (Wuhan)
- 2017-Present: Associate Professor, China University of Geosciences (Wuhan)
- 2022-2023: Visiting Research Fellow, The University of Tokyo
Experience đź’Ľ
- Lecturer at China University of Geosciences (Wuhan), 2010-2016
- Associate Professor at China University of Geosciences (Wuhan), 2017-Present
- Visiting Research Fellow at The University of Tokyo, 2022-2023
Research ExperiencesÂ
- National Natural Science Foundation of China (50579031): Runoff-evaporation hydrological model for arid plain oasis, 2006-2008.
- National Natural Science Foundation of China (50721140161): Eco-hydrological model of watershed scale, 2006-2009.
- The Fundamental Research Funds for National University (CUGL100220): Runoff simulation of subterranean karst stream, 2011-2013.
- National Natural Science Foundation of China (51979252): Experimental study and simulation on water flow and solute transport, 2020-2023.
Research Interests 🔬
Dr. Meng’s research focuses on hydrologiclc proesses simulation, groundwater numerical simulation, and watershed hydrology. His work aims to improve understanding of water movement and quality in various hydrological systems, particularly in arid and karst regions.
AwardsÂ
- 2009: Excellent Paper, Editorial Office of the Journal of Hydraulic Engineering
- 2012: Frontrunner 5000 top articles in outstanding S&T journals of China
- 2013: Frontrunner 5000 top articles in outstanding S&T journals of China
Publications đź“š: Hydrology
- Investigation of rainfall-runoff and sediment yield dynamics under varying slope land use patterns in the Three Gorges Reservoir Area of China – Land Degradation & Development, 2024
- Unsteady flow modeling of low-velocity non-Darcian flow to a partially penetrating well in a leaky aquifer system – Advances in Water Resources, 2024
- Rainfall-runoff process and sediment yield in response to different types of terraces and their characteristics: A case study of runoff plots in Zhangjiachong watershed, China – Land Degradation & Development, 2024
- How low-velocity non-Darcian flow in low-permeability media controls the leakage characteristics of a leaky aquifer system – Hydrogeology Journal, 2024
- Lithologic controls on parameters of conceptual rainfall-runoff model and runoff characteristics: A case study of the Xinanjiang model – Journal of Hydrologic Engineering, 2023