Mobile lab at site in Southern Water鈥檚 West Marden wastewater works

Environmental experts are working with water companies to develop alternative approaches to phosphorus removal on rural wastewater treatment works.

24 May 2024

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Scientists from the 黑料吃瓜 have partnered with water companies and industry experts to tackle phosphorus pollution, which is a growing problem in UK waterways due to agricultural runoff and wastewater effluents.

The majority of rivers in England have high levels of phosphorus, which can be very damaging to water environments, promoting excessive algal growth and depriving fish and other aquatic animals of oxygen. There is also concern for the long term sustainability of phosphorus fertiliser supplies, the majority of which are mined and imported.

The water industry is heavily dependent on dosing metal based chemicals for the removal of phosphorus. These chemicals cause the mineral to come out of solution and then 鈥榗lump鈥 the particles together allowing them to settle, but they come at a price with UK companies spending in the region of 拢39 million a year with rising demand increasing prices. This solution also does not scale down well to small rural sewage works which are becoming more regulated for their effluent phosphorus levels.

A new project, , is exploring chemical free options for phosphorus removal, to reduce the carbon footprint of wastewater treatment, without negatively impacting water quality.

It is being led by United Utilities in collaboration with the University, Southern Water, Wessex Water, Power & Water, Evergreen, Hydro Industries, and Kolina.

Potential solutions range from electrocoagulation (using electrical reactions to clump together particles), to natural coagulants and reactive media, which is the 黑料吃瓜 and Southern Waters鈥檚 contribution.  

鈥淩eactive media鈥 are a range of different materials which attract and bind phosphorus to their surface, enabling them to be placed in a simple filter bed or wetland. These technologies are being trialled at rural wastewater sites, which face unique challenges for chemical-free treatment. 
 

It鈥檚 clear we need a more sustainable process to remove phosphorus if we want to maintain water quality and reduce the amount of carbon used in the manufacturing and delivery of coagulants.

 

Professor John Williams, Research lead for the School of Civil Engineering and Surveying

Professor John Williams, research lead for the School of Civil Engineering and Surveying, said: 鈥淚t鈥檚 clear we need a more sustainable process to remove phosphorus if we want to maintain water quality and reduce the amount of carbon used in the manufacturing and delivery of coagulants.

鈥淎 secondary aim is to recover the phosphorus from the wastewater to close the loop and provide a long term circular economy for finite phosphorous resources.  To enable this, we are looking at media that capture P made from waste materials such as sea shells and biochar that could be directly reused in agriculture. 

鈥淚f these options work, they could be used at any wastewater treatment plant in the UK, or around the world.鈥

Yesterday (23 May), partners met at two locations on the south coast to get an update on the project鈥檚 progress. Firstly they visited the University鈥檚 Environmental Technology Field Station at Petersfield Wastewater Treatment works, which is hosting laboratory trials of different media, followed by Southern Water鈥檚 West Marden wastewater works where a mobile testing unit is currently situated.

Walk through with collaborators at wastewater site

鈥淚n order to monitor and test at different sites effectively across the UK, we鈥檝e built a mobile test bed in a shipping container鈥, explained from the University who is a researcher on the project.

鈥淭he container is packed with test rigs containing different reactive media and online monitoring, which can move between sites with different water chemistry to determine the best solution for a particular site.鈥

Project lead, Dr Adela Martin from Southern Water, said: 鈥淭he Ofwat fund encourages collaboration between water companies, suppliers, researchers, and local communities, to develop innovative solutions that enhance water efficiency, resilience, and sustainability. This collaborative approach is also intended to accelerate the adoption of cutting-edge technologies and practices, ultimately leading to better service delivery and environmental outcomes for consumers.

鈥淩eactive media can effectively adsorb and retain phosphorus from wastewater, employing a straightforward and environmentally friendly process and therefore represents a promising solution to mitigate eutrophication in local water bodies. Implementing reactive media at rural treatment sites, not only improves water quality but also provides a cost-effective and efficient alternative to conventional chemical treatments, which can be both expensive and logistically challenging for small-scale operations鈥.鈥

The project is being funded by Ofwat, as part of its first . In 2021, the Water Services Regulation Authority for England and Wales selected to tackle some of the biggest challenges facing the water sector in England and Wales.

Lisa Mansell 鈥 United Utilities, Chief Engineer Innovation, said: 鈥淪ecuring funding for this project was a great achievement. It will significantly advance the adoption of alternative options for phosphorus removal from wastewaters. These options aim to reduce the cost of delivering environmental improvements (savings that could drive down customer bills), but could also significantly reduce our carbon footprint.鈥 

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