Integrated Biosensing Platform for Waterborne Pathogen Detection: Improving Public Health
We will establish a portable integrated sensing platform for rapid, on site, simultaneous detection of several contaminants associated to waterborne diseases.
Planned, ongoing, and completed research projects and campus and service improvements.
We will establish a portable integrated sensing platform for rapid, on site, simultaneous detection of several contaminants associated to waterborne diseases.
This project introduces a novel and structured approach for integrating Natural Capital in the asset management portfolio of the water industry.
This project aims to use imagery collected by the public for beach monitoring purposes, while also engaging local communities with beach management issues.
This project aims to improve and inform the way in which ponds are operated while simultaneously improving pond operation and resilience.
This project aims to develop a conceptual framework to model groundwater vulnerability for semi-arid regions.
This project aims to improve understanding of the microbial consortia relevant to Enhanced Biological Phosphorus Removal (EBPR) in wastewater treatment plants.
This project aims to produce semi-conductors via the electrochemical process, anodization, to act as a photocatalyst for use in water treatment.
We aim to quantify waterborne pathogens within a polishing wetland to inform sewage treatment policy and to potentially decrease risk for waterborne illnesses.
This project seeks to develop and test prototype systems in renewable energy using ocean waves as a viable renewable alternative to conventional energy sources.
This project aims to investigate and assess the utility of documentary evidence of past flood events within contemporary flood risk assessments in Bath.