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.
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.
Using experience gained over the last 60 years, scientists and engineers at HR Wallingford have developed a range of state-of-the-art physical modelling technology.
HR Wallingford offers integrated dredging and reclamation solutions to support the development of new infrastructure. We help our clients design, procure and deliver their projects on schedule while achieving the best value for money.
We have been involved in the design of energy projects for almost 60 years, and offer support to the global oil and gas industry at every stage of the project lifecycle
Drainage is fundamental to the provision of a sustainable environment in towns and cities. HR Wallingford applies specialist expertise to solve a broad range of drainage related issues.
The Fast Flow Facility is a unique dual channel flume delivering a world-leading capability in wave-current-sediment 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.