Details
The University of Sheffield, Sheffield Water Centre in collaboration with Anglian Water and the EPSRC Centre for Doctoral Training in Water Infrastructure and Resilience.
PhD Studentship in: Impacts of Blending Drinking Water from Desalination into Existing Distribution Systems
Stipend: This post will fully cover university tuition and provide a tax-free stipend for Home and Overseas students of £24,000 per year.
Closing Date for Applications: 30th June 2024
Start Date: 30th September 2024 (contract duration 4 years)
Water utilities in the UK and globally are looking to bolster their dwindling conventional water supplies and increase resilience to climate change using desalination, especially in regions with drought risk. However, the water produced through desalination has different quality characteristics than conventionally treated surface or ground waters. Therefore, the addition of desalination water into existing networks requires careful consideration to manage risks such as the disturbance of biofilms and corrosion scale that might have built up protective layers in the past. This PhD will address the vital uncertainty of what happens when we introduce relatively aggressive desalination treated water into ageing water distribution systems. The results will help the global water industry understand how to safely introduce and utilise desalination within existing systems and provide safe clean drinking water for all into the future.
This project will work closely with Anglian Water, to inform their plans for new alternative water sources including desalination plant(s). The student will have the opportunity to work on lab-based and pilot-scale experiments to simulate different blending scenarios, using cast iron pipe retrieved from a case study network to observe changes in corrosion rates, disinfectant residual decay, biofilm growth and detachment rates, and mobilisation of inorganics. Different final water chemistry characteristics for the desalination water will be evaluated experimentally to understand the impact of corrosion inhibitors, hardness/alkalinity ions, and disinfectant residuals on different blending scenarios, which would include blending prior to entering the distribution system and ad hoc blending with short- and long-term frequency.
The student will benefit from state-of-the-art lab facilities at the University of Sheffield, using cutting-edge techniques for water quality analysis including online physical/chemical parameter monitors and advanced microbiological analysis, and will become part of one of the largest water distribution research groups in the world. This project will launch an exciting new field of enquiry to understand the impacts of blending water from different sources, with potential for global application.
The research programme to be completed in this project will be undertaken as part of the EPSRC Centre for Doctoral Training in Water Infrastructure and Resilience (CDT WIRe). WIRe is a collaboration between the three leading UK Universities in water resilient infrastructure. Students will benefit from a generous stipend, bespoke training scheme delivered by world leading experts from academia and industry, access to world leading experimental and computational facilities as well as close and regular contact with industry and end user partners. WIRe is committed to promoting a diverse and inclusive community, and offer a range of family friendly, inclusive employment policies. For further information on the WIRe scheme visit the web site at: https://cdtwire.com/
The project will be supervised by Professors Vanessa Speight and Joby Boxall in collaboration with partners from Anglian Water. There will be generous opportunities to travel to conferences and to visit our academic and industry partners in both the UK and overseas.
Eligibility Criteria
This studentship is subject to standard RCUK eligibility criteria. It is open to all students with Home or Overseas residency (subject to a maximum quota of overseas students per training grant).
The selection criteria for the position are;
• A good honours degree (or equivalent experience) in Engineering, Physical Science, or a related subject.
• Enthusiasm for research
• Good level of written and oral communication skills, as appropriate for disseminating research and communicating with project partners.
• Willingness to collaborate with other researchers, industry and end-users.
• Aptitude for research in a drinking water quality in water distribution systems (or similar chemical analysis) and laboratory skills as evidenced by previous experience.
How to apply
Interested candidates should email a covering letter and their Curriculum Vitae to Miss Lindsay Hopcroft ([email protected]). Interviews will be held soon after closing by webmeeting. For information and informal enquiries please contact: Professor Speight, [email protected].
Funding Notes
This post will fully cover university tuition and provide a tax-free stipend for Home and Overseas students of £24,000 per year.