We are seeking a motivated and capable PhD researcher to undertake an exciting research project that promises to improve the sustainability of the food industry. The food and drink production sector is the largest manufacturing industry in the UK, consuming approximately 430 million litres of water per day – accounting for 10% of the country's total industrial water usage. One of the most resource-intensive processes within the sector is the cleaning of processing equipment. This operation is critical in industries such as food and drink, pharmaceuticals, and fast-moving consumer goods (FMCG), but it requires substantial amounts of water, energy, and chemicals. In food processing plants, it is estimated that cleaning typically represents 30% of a site's total water consumption and a similar proportion of energy consumption. These figures highlight the significant environmental costs of current cleaning practices, underscoring the need for more efficient, sustainable cleaning technologies within the sector. Cleaning is generally performed using autonomous Clean-in-Place (CIP) processes, which often over-clean as suitable technologies do not exist to determine when fouling has been removed from the internal surfaces of processing equipment. To optimize the cleaning of food production equipment, there is the need for innovative technologies to monitor the removal of fouling from equipment surfaces. Similarly, post-process water streams are frequently reusable, but are discharged due to lack of intelligent monitoring and management capability. This project will investigate the opportunity to use ultraviolet (UV) fluorescence imaging to monitor the removal rate of food fouling from the internal surfaces of tanks during CIP processes combined with in-line sensors to assess cleaning water quality for reuse or recycling. Most foods contain fluorophores and will fluoresce under suitable UV excitation. Detecting this fluorescence would allow in-process monitoring of fouling removal and hence support the control of cleaning processes. The application of water stream monitoring sensors (currently used for process control) for post-process water stream management will also be investigated. The doctoral researcher will have access to existing state-of-the-art processing facilities and appropriate monitoring and analysis equipment. The project presents the opportunity to publish in top-tier journals and present at international conferences and the PhD student will receive comprehensive training in research practices, technical writing and many other relevant skills. Candidates should have a strong background in engineering, applied physics, or related fields; knowledge or interest in sensor technologies, water chemistry, or data analytics; and excellent problem-solving skills with a passion for research innovation. How to Apply : Applications should be made online via the above ‘Apply’ button. Under programme name, select ‘Mechanical and Manufacturing Engineering/Electronic, Electrical & Systems Engineering’ and quote the advert reference number FP-EW-2025 in your application. To avoid delays in processing your application, please ensure that you submit your CV and the minimum supporting documents. The following selection criteria will be used by academic schools to help them make a decision on your application. Entry requirements: An undergraduate degree at least the level of 2:1 or equivalent in the field of engineering or physical sciences, or a related area. A postgraduate level qualification with at least a merit or equivalent in a related field would be advantageous. English language requirements: Applicants must meet the minimum English language requirements. Further details are available on the international website ( http://www.lboro.ac.uk/international/applicants/english/ ). £19,237 per annum. Fully Funded (UK and International). The studentship is for 3 years and provides a tax-free stipend of £19,237 per annum for the duration of the studentship plus university tuition fees.