Ã÷ÐÇ°ËØÔ

Skip to main content

Developing a comprehensive management approach to PFAS - The London NERC DTP

A rare opportunity to apply for a 4 year fully funded research studentship via The London NERC DTP has arisen, to start in September 2024 at Ã÷ÐÇ°ËØÔ. To find out more, please visit The London NERC Doctoral Training Partnership

Developing a comprehensive management approach to PFAS 

Outline of proposed project:

The widespread use and prolonged environmental persistence of the per- and polyfluoroalkyl substances (PFAS) have led to their ubiquitous detection in waterbodies worldwide. These “forever chemicals” are found in everyday consumer goods (from textiles and cleaning products to cookware) and therefore, wastewater serves as a major pathway through which PFAS enter aquatic environments. Conventional wastewater treatment plants (WWTPs) have low removal efficiencies for PFAS, while in many cases, higher PFAS concentrations are reported in the effluents than in the influents. Advanced treatment processes are more effective at removing PFAS compared to conventional methods; however, they come at much higher costs, increased operational carbon emissions, and varying effectiveness in removing PFAS precursor compounds. At the same time, residential drinking water is a primary source of human exposure to PFAS as drinking water treatment technologies or water blending techniques do not eliminate these chemicals. The costs of cleaning up wastewater and drinking water contaminated with PFAS are borne by water companies, which also lose important revenue streams due to the disposal of sludge contaminated by PFAS to landfills at increasing landfill tax rates. Ultimately, these costs are passed onto customers or taxpayers who routinely and disproportionately experience the long-term costs of exposure to PFAS and environmental degradation. Therefore,the overall aim of this PhD project is to develop a comprehensive PFAS management approach that will decouple the urban water cycle from PFAS inputs.

This project will offer a challenging, collaborative and transdisciplinary opportunity for an excellent PhD candidate to work at the forefront of this exciting area with a leading academic team at Ã÷ÐÇ°ËØÔ within the Centre for Pollution Research and Policy. For informal discussions concerning the project, please contact Dr Theodoros Giakoumis (Primary supervisor) at theodoros.giakoumis@brunel.ac.uk and Dr Eleni Iacovidou (Secondary supervisor) at eleni.Iacovidou@brunel.ac.uk.

References

Wee, S. Y., & Aris, A. Z. (2023). Revisiting the “forever chemicals”, PFOA and PFOS exposure in drinking water. In npj Clean Water (Vol. 6, Issue 1). Nature Research.

Cordner, A., Goldenman, G., Birnbaum, L. S., Brown, P., Miller, M. F., Mueller, R., Patton, S., Salvatore, D. H., & Trasande, L. (2021). The True Cost of PFAS and the Benefits of Acting Now. In Environmental Science and Technology (Vol. 55, Issue 14, pp. 9630–9633). American Chemical Society.

Giakoumis, T., Vaghela, C., & Voulvoulis, N. (2020). The role of water reuse in the circular economy. In Advances in Chemical Pollution, Environmental Management and Protection (Vol. 5).

Gerassimidou, S., Geueke, B., Groh, K. J., Muncke, J., Hahladakis, J. N., Martin, O. V., & Iacovidou, E. (2023). Unpacking the complexity of the polyethylene food contact articles value chain: A chemicals perspective. Journal of Hazardous Materials, 454, 1-14.

Kortenkamp, A., Martin, O., Iacovidou, E., & Scholze, M. (2024). Drivers of divergent assessments of bisphenol-A hazards to semen quality by various European agencies, regulators and scientists. International Journal of Hygiene and Environmental Health, 255, 1-11.

Eligibility

Application process

Applicants are expected to have a 2:1 or higher or equivalent qualification or work experience in chemistry, material science or environmental science. A masters qualification in a relevant area, including environmental engineering or environmental economics would be desirable. Knowledge of programming and statistical analysis ideally with research experience is also desirable.

All of our studentships are open to students who qualify for NERC awards and EU nationals. Please ensure you meet the eligibility and residency criteria before you make an application. Further details can be found in the

Residency criteria:

To be eligible to apply to the London NERC DTP, a student must meet one of the following two sets of criteria:

UK Residents eligible for UKRI funding

  • Settled status in the UK, meaning they have no restrictions on how long they can stay and;
  • Been ‘ordinarily resident’ in the UK for 3 years prior to the start of the studentship. This means they must have been normally residing in the UK (apart from temporary or occasional absences) and;
  • Not been residing in the UK wholly or mainly for the purpose of full-time education. (This does not apply to UK or EU nationals – EU nationals who have been in the UK for full time study for the past 3 years or more, do qualify for a full award);

All students will undertake an intensive programme of interdisciplinary core research and professional development training in the autumn and spring terms

How to apply

Submission of documents:

All applicants will be required to submit 

  1. CV
  2. 2-page cover letter outlining your suitability for this proposed project
  3. English Language certification for students from outside the UK
  4. Certificates and transcripts of both degrees if applicable
  5. 2 academic references

Only references received from valid institutional email addresses will be accepted. Any responses received from non-accredited email accounts, such as hotmail, gmail etc., will not be considered.

Please submit your applications to emma.smith@brunel.ac.uk by no later than 12noon on  Monday, 17 June 2024.

Meet the Supervisor(s)


Theodoros Giakoumis - I am an environmental scientist with background in natural resources management, environmental technology and policy. My research focuses on applying systems thinking to address complex environmental problems, formulating evidence-based methodologies to enhance decision-making and facilitate the effective implementation of environmental policies. Before joining Ã÷ÐÇ°ËØÔ, I was a postdoctoral research associate at Imperial College London working in the NERC funded project “Defining the AMR Burden of Antimicrobial Manufacturing Waste in Puducherry and Chennai” (2019 - 2023) and in several Anglian Water funded projects (2018 - 2023) on the operation of the company’s Combined Sewer Overflows (CSOs), the contaminants and risks associated with their discharges at receiving waters. During my doctoral research (2015 - 2019), I investigated strategies to adapt EU water policy and management to minimize the ecological and socio-economic consequences of water scarcity and ongoing global change. This research was conducted as part of the GLOBAQUA project, funded by the European Commission’s Seventh Framework Programme.

Eleni Iacovidou - My research focuses on environmental management, with emphasis on resource and waste management systems. Specifically, I develop methods for performing holistic and integrated environmental, economic, social and technical assessments of resource recovery systems based on a systems thinking approach. Using this approach, I combine environmental science and engineering with an understanding of the political, organisational, structural and cultural aspects that act synergistically in a resource recovery system to highlight areas of intervention for promoting sustainability. My research is predominantly desktop based and focuses on four key areas: food waste prevention and management  plastic and plastic packaging system assessment construction components reuse and modular structures waste electrical and electronic equipment (WEEE) repair and reuse I am also interested in the implications of technological and regulatory lock-ins, the role of stakeholders in sustainability transitions, the impact of informal recycling systems on environment and society, in waste infrastructure availability and adaptation based on area-specific characteristics, the use of smart technologies for tracking components and products across the value chain, and in circular economy.