-
Harnessing Floodwaters: Adaptive Strategies for Sustainable Water Resources and Flood Risk Management under Future Uncertainty Award Summary 100% fees covered, and a minimum tax-free annual living
-
. This project addresses the opportunities for floodwater utilisation in the context of the Strategic Resource Options being developed by the water companies. These options overlook the potential of floodwater
-
industrial wastewater, bridging fundamental science with engineering design and energy/resource recovery. The student will investigate how process intensification, energy integration, and resource recovery
-
in their fields; Tailored training and development programmes; Placements and internship opportunities Access to a vast range of high-quality laboratories, facilities and resources. Information about
-
offer a valuable resource for building training datasets linking measured properties to geophysical parameters. Using these datasets, the project will improve the reliability of geotechnical parameters
-
offer a valuable resource for building training datasets linking measured properties to geophysical parameters. Using these datasets, the project will improve the reliability of geotechnical parameters
-
most exploited natural resource after water, and riverbed sand mining has increased dramatically in recent decades. This activity reshapes river channels, altering their topography, destabilising banks
-
will provide a critical resource for climate resilience, with direct pathways to impact in policy, industry, and society. For further information on the project, we will be hosting a ‘Prospective
-
The Research Area is: Civil Engineering (Water Resources) Select PhD Civil Engineering (full time) as the programme of study You will then need to provide the following information in the ‘Further Details
-
costs will also be provided. Overview Sand is the world’s second most exploited natural resource after water, and riverbed sand mining has increased dramatically in recent decades. This activity reshapes