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.
Structure from Motion (SfM) refers to the process of using a collection of digital photographs of a common object or area to produce a 3D model in the form of a point cloud.
The simulations of wave-driven currents and computation of sediment transport patterns and morphodynamics using the PISCES models are generally based on the TOMAWAC wave model.
Our drought simulation workshop helped Bristol Water test their draft Drought Plan, and be better prepared to manage droughts specific to their resource system.
HR Wallingford has considerable experience of hazard and risk mapping. Our consultancy studies are backed by leading edge tools and our active involvements in climate change and flood risk research.
We provide specialist planning, design and engineering services for downstream oil and gas, refining and petrochemical industry projects worldwide
HR Wallingford has a 60 year track record of achievement in applied estuarine research and consultancy. We apply our expertise to deliver sustainable solutions for our clients worldwide.
HR Wallingford carries out research, assessment and ecological modelling to understand the impacts of natural and human induced change on the aquatic environment.
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