Ashby Road
Nottingham NG1 4BU
Great Britain
Loughborough University
Natural Flood Management, Hydrodynamic Flood Modelling, Catchment-scale, Unmanned Aerial Vehicle, Nature-based Solutions, High Performance Computing
Natural Flood Management, Nature-based Solutions, Hydrodynamic Modelling, Geographic Information Systems, Unmanned Aerial Vehicles
debris flow, numerical modelling, erosion and deposition, depth-averaged model, Godunov-type finite volume method, stiff source term
Finite volume method, hydrodynamic modelling, neural network-based flux approximation, physics-guided deep learning, shallow water equations
Urban stormwater quality, Non-point source pollution, Physically based modelling, Lagrangian particle tracking, GPU acceleration
nature-based solutions, Remote sensing, UAV Photogrammetry, Handheld LiDAR, Remote Monitoring, Rural Areas, Flood Modelling
Pipe confluence, Flow structure, Sediment transport, Bed morphology, junction angle, flow ratio
Laboratory-scale confluence, Separation zone, Theoretical model, Resistance separation theory, Bed morphology, Zero-unit-discharge method
Pipe confluence, Flow structure, Sediment transport, Bed morphology, Confluence angle, Flow ratio
Flood risk, climate change, Land use change, hydrological-hydrodynamic model