This project updated HR Wallingford’s RESSASS software to help us model and manage sediments in reservoirs.
This research project looked at the best way to insert fish in to hydrodynamic models, and to provide the concept by looking at hydro power impacts and invasive species migration.
HR Wallingford and the University of Oxford set up a shorter knowledge transfer project to investigate several issues regarding one-line modelling.
This preliminary study was carried out to ensure confidence in the performance of CFX in simulating wave, current and combined wave and current boundary layers
We carried out a research study to examine the partial transmission of wave energy through (or over) structures and the simulation of transmissive structures within the numerical model, ARTEMIS.
From thermal and nuclear power stations, to marine renewable energy developments, our specialist services help to manage water-based risks for power projects
We offer a full range of tailored environmental solutions, integrating environmental assessment in our modelling, dredging, flood risk, water management and engineering advisory services.
HR Wallingford provides solutions for optimum river infrastructure management, helping asset manager target their resources to obtain the greatest benefit in terms of risk reduction.
We help our clients to consider and understand the marine environment at all stages of the project life cycle, from concept development and master planning through to engineering design, construction and operation.
The Fast Flow Facility is one of the world's largest marine test facilities, delivering a world-leading capability in wave-current-sediment-structure modelling.
Our tsunami wave simulator generates model-scale tsunami in the laboratory, allowing researchers to better understand the potential impact of tsunami once they reach the coastline.
14,400 m² of physical modelling facilities housed in three purpose built halls