Rapid process optimisation procedures and process selection methods

Lead Research Organisation: CRANFIELD UNIVERSITY
Department Name: School of Water, Energy and Environment

Abstract

The project will focus on developing leading edge technologies and methodologies to deliver resilient and sustainable operational, control and monitoring techniques to delivere optimised DOC removal performance from coagulated systems and to inform investment needs, this project will include the development and testing of:
Augmented Intelligence (AI) tools and techniques for rapid process optimisation, control and monitoring.
Charge density and charge analysis procedures for onsite optimisation of coagulated process for DOC removal.
Rapid fractionation and rapid DOC analytical techniques to evaluate DOC removal efficiency and investigate removal options for DOC fractions that are difficult to remove by coagulation.
Develop process analytical methods that can be used to select treatment options for improved DOC removal.

Planned Impact

Graduates from the WRIC programme will produce new knowledge across the disciplinary landscape and graduate to occupy professional roles of influence and authority which require a thorough understanding of the pathways by which knowledge and technology are adopted and put to socially significant use. The people and knowledge delivered through the CDT will improve the efficiency and effectiveness of the nation's >£5bn annual spend on water and water related infrastructure (OFWAT, 2017), improving its resilience and securing its value for society for generations to come. With ambitions to nurture domain experts who can flourish at the interfaces of scientific disciplines and economic/industry sectors, the impact imperative is a significant but stimulating challenge for the WRIC CDT. Our impact strategy seeks to; (i) ensure rapid dissemination of scientific insights, (ii) maximise awareness and uptake of research sponsored through the CDT, and (iii) improve professional and lay understandings of the water infrastructure challenges facing society and the science behind candidate solutions. This strategy has been developed with project and Centre stakeholders so as to leverage additional resources, and maximise impact.
Improving the resilience of water infrastructure systems will be of benefit to a wide range of stakeholders. Given the CDT's bold intention to tackle knowledge gaps at the interfaces between disciplines and problems, new scientific understandings generated through WRIC will be of value to the knowledge users in the public sector (local authorities, regulators) and private sector (utilities, consultancies, technology providers), ultimately benefiting both lives and livelihoods across the UK and beyond. The UK economy will benefit from robust and resilient water infrastructure, in-line with the UK Government's Industrial Strategy for cleaner economic growth, the efficient use of resources, and building a regenerative circular economy. In the next Price Review PR19 (2020-25), water companies will be financially rewarded for implementing enhanced system resilience and innovation. Research outputs from WRIC will enable water companies to be able to meet these demands, alongside ambitious industry targets for zero water and wastewater quality failures, demand reduction and chemical recycling (OFWAT, 2017; UKWIR, 2017). These developments will facilitate inward international investment, development of new technology providers and supply chains, and opportunities for exporting intellectual property and know-how worldwide, further benefiting the UK economy. Project partners, including Thames Water, Severn Trent Water, Atkins, Stantec, Datatecnics also benefit from access to high quality graduates and facilities. Furthermore, regulatory agencies (Environment Agency, Drinking Water Inspectorate) and the European Commission will see benefits from improved compliance to regulations and sustainability agendas (Water Framework Directive 2008/32/EC and Drinking Water Directive 2017/0332(COD)).
The CDT programme will benefit the UK Collaboratorium for Research on Infrastructure and Cities (UKCRIC) government investments (£138M). Sheffield, Cranfield and Newcastle Universities have all received capital grants through UKCRIC to fund industrial scale test facility and observatory facilities to form an Urban Water Hub. The CDT will supply the resources to use and maximise the benefits and outputs from these facilities. Cooperation with other UKCRIC CDTs will help students better understand contemporary challenges for infrastructure and cities will catalyse horizontal innovation transfer and elevate the transformative potential of WRIC graduates.

Publications

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Studentship Projects

Project Reference Relationship Related To Start End Student Name
EP/S023666/1 31/03/2019 29/09/2027
2276889 Studentship EP/S023666/1 06/10/2019 07/02/2024 Daniel Ruth
 
Description A research-based recommendation for a new technology to be used to monitor the optimisation of drinking water treatment. Before this research, Water companies had limited knowledge about the specific parmaters to measure and needed guidance on which to adopt to ensure future resilience of water treatment.
Exploitation Route Others may also adopt this technology given the increased research and scientific backing that it has which shows that by using this technology, you can improve the quality of drinking water leaving a treatment works.
Sectors Agriculture

Food and Drink

 
Description UNSW water quality monitoring collaboration 
Organisation University of New South Wales
Country Australia 
Sector Academic/University 
PI Contribution Novel analysis of existing water samples for comparison to personal dataset allowing for my research to have a wider audience and applicability.
Collaborator Contribution Collection of samples and initial analysis during sampling period.
Impact Still ongoing.
Start Year 2023