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Key information

Funding
Self-funded
School
Energy, Geoscience, Infrastructure and Society
Location
Edinburgh
Delivery type
Full-time, Part-time
Start date
September

Water Management Research has a strong and established track record in delivering cutting-edge research in all aspects of water management. Contributing staff possess a broad range of expertise, with particular strength in: environmental flow interactions; flood risk management; urban drainage and culvert design; environmental fluid mechanics; pollution incident modelling; river dynamics; water resources management; and the application of GIS to water problems.

Research projects

Research activities are focused on the development and application of advanced numerical models for the prediction of both flow and transport problems, providing engineering solutions and improved management practices for a range of water-related environmental problems. This research is also supported by experimental studies in the School's recently refurbished hydraulics laboratory and by field-based measurement courses.

Flood risk management

Within flood risk management research, we possess expertise in flood inundation modelling, storm water drainage systems, retention basins, flood risk analysis and communication, and support for GIS technologies. We currently play a leading role in the £7 million UK Flood Risk Management Research Consortium II. Within the consortium's portfolio of research we specialise in flood inundation modelling, culvert design, operation and maintenance and urban drainage aimed at: developing predictive methods to address problems associated with debris blockage at culverts; improving sewerage asset management; and evaluating treatment trains within Sustainable Urban Drainage Systems (SUDS). Efficient data management and mapping using geographical information systems (GIS) is becoming an increasingly important tool for decision makers to determine the appropriate allocation of resources, and the scope of research within GIS ranges from the rehabilitation of sewer systems to whole catchment management plans.

Flood and Coastal Erosion Risk Management Network

The Flood and Coastal Erosion Risk Management Network (FCERM.net) was launched in November 2013. The Network is led by Professor Garry Pender and its members are a mixture of academics from universities across the UK, engineering consultants and Government bodies such as SEPA and the Environment Agency. The Network brings together this diverse group of expert practitioners to look at ways to deal with flood risk and how we respond to the ongoing challenges that high tides, intense rain storms and rising sea levels pose to residents. An interview with Professor Pender about the Network is available.

Water resources management

Significant challenges associated with the severe pressures on water resources in many parts of the world are key motivators within water resources management research. Problems relating to increasing demand, changing runoff patterns and water contamination are tackled through the delivery of tools for better planning and operation of irrigation and water supply reservoirs, groundwater evaluation and management, and wastewater treatment and operation.

River dynamics

Research into river dynamics relates to the fluvial processes of water flow, sediment transport and morphological evolution. We have internationally expertise in theoretical, experimental and computational studies within these areas, with recent work focussing on threshold of motion, entrainment of bed load sediment transport, coupled with mathematical modelling of fluvial processes, and multiple time scales associated with these processes.

Mathematical modelling and field monitoring

Combined expertise in state-of-the art mathematical modelling and field monitoring studies is applied in pollution incident modelling to predict the transport, dispersion and fate of accidental releases of pollutants into river systems, assess their environmental impact in the aquatic environment and quantify the response of the river system. Recently, research expertise has grown in environmental fluid mechanics and environmental flow interactions. The former focuses predominantly on buoyancy-driven, stratified flow problems and sedimentation processes within estuarine and coastal waters, as well as the behaviour of dense oceanic gravity currents. The latter examines the impact on physical structure and ecological response within a river basin to development activities, establishing relationships between flow, river form, ecosystems and flood regime at different spatial and temporal scales.

Project supervisor

Staff contributing to this research area include:

Associated staff:

Entry requirements

Candidate criteria

We welcome applications from suitably qualified candidates. Please visit our How to apply page.

Why Heriot-Watt

We're the top university in Scotland for graduate outcomes which means that more of our graduates are employed or in postgraduate education than any other institution in the country and we ranked 5th in the UK.

We're also rated number one in the UK for CEO or MD roles, meaning more of our graduates go on to become CEOs or MDs than any other university in the whole of the UK. On top of that, we have beautiful campuses, across the globe, so you'll get a truly international education. Our Edinburgh Campus is home to Oriam, Scotland's National Sports Performance Centre combined with plenty of wellbeing resources, prioritising fitness and mental health for all students. Our Global Research Institutes look at solving real world issues such as climate change and saving our oceans as well as working on the next medical technological breakthrough and the future of AI and robots.

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