Modelling and Assessment
Developing leading resilience strategies and solutions founded on the integrated modelling and assessment of water quantity, quality and environmental processes.
Creating next-generation solutions
We pride ourselves on being at the forefront of the latest research and technology, driving change in our industry and often in collaboration with both academics and like-minded companies. We use trusted, industry-standard software but have pioneered new methods and emerging technologies including artificial intelligence, machine learning, visualisation and 3D modelling to create next-generation solutions.
For over 27 years, we have achieved this by being trusted advisors and collaborators with our clients, co-developing innovative modelling and assessment solutions and delivering high-quality work to provide the best value from the available time and budget.
Our expertise includes:
- Flood Modelling
- Environmental Modelling
- Coastal Processes and Modelling
- Flood Forecasting and Flood Warning
- Integrated Urban Drainage Modelling
- Scheme Appraisal
- Real-Time Modelling
- Hydraulic Analysis and Advanced Applications
We were commissioned by the Environment Agency to use 3-Dimensional (3D) Computational Fluid Dynamics (CFD) models at Featherstone Gauging Weir to produce and assess the impacts of the rating curve for three different scenarios.
Influencing global best practice
We assimilate and influence global best practice. We continue to work closely with national risk management authorities and our support to international finance institutions has increased significantly. We also work closely with infrastructure operators, asset owners and management corporations.
Our capabilities in modelling, impact assessment, appraisal, economics and environmental economics – particularly at national and large spatial scale are renowned and fundamental to achieving our ambition. It sets us apart and supports our clients to plan, adapt, respond, recover and transform their organisations in the face of a changing climate.