Cranfield University, England invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Cranfield University, England.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: What process options are available for treatment of hazardous chemicals at the point of entry to sewer? MSc by Research
We invite applications for a fully funded MSc by Research investigating innovative solutions for the removal of hazardous chemicals, including PFAS, at the point of entry to sewer. This project, supported by the UK Water Industry Research through Isle Utilities, offers a tax-free bursary of £21,805 plus full tuition fees for one year. Based at Cranfield University, the research will evaluate novel adsorption technologies against current industry standards using pilot-scale systems. This is an excellent opportunity to contribute to cutting-edge research addressing critical environmental challenges while gaining hands-on experience in applied water treatment.
Deadline : 08 Jul 2026
(02) PhD Degree – Fully Funded
PhD position summary/title: Ubiquitous Cognitive Navigation with AI Based Systems PhD
This PhD project aims to develop resilient Position, Navigation and Timing (PNT) systems for autonomous transport, addressing a critical challenge in the UK’s Net Zero transition. Current satellite dependent navigation remains vulnerable to interference, jamming and signal degradation, causing serious problems for safe and efficient transport. By integrating artificial intelligence (AI), multi-sensor fusion, and cognitive systems, the research will pioneer robust navigation architectures. These improvements are key to making future transport systems safer, more efficient, and more sustainable.
The aim of this project is to design a smart cognitive navigation framework that information from various sensors and learn to make decisions on its own. It will use signals from different sources—such as radio signals and internal sensors— to maintain robust and accurate PNT, even when satellite signals are weak or missing. A built-in intelligent system will manage and adjust the way information is used in real time.
Deadline : 30 Sep 2026
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(03) PhD Degree – Fully Funded
PhD position summary/title: Self-learning battery management systems for lithium–sulfur batteries PhD
Are you interested in shaping the future of zero-emission transport systems? This PhD study, fully funded by the Faraday Institution, facilitates the use of next-generation Lithium-Sulfur (Li-S) batteries for transport systems. You will combine hands-on experiments with physics-based data-driven modelling to understand how Li-S batteries perform in real applications and develop suitable battery management systems (BMS) for that technology, capable of coping with the unfamiliar, reducing time, self-calibration, and optimising performance throughout the battery’s life. The project contributes to the development of next-generation battery systems, aligned with the UK’s ambitions for advanced energy technologies.
Deadline : 22 Jul 2026
(04) PhD Degree – Fully Funded
PhD position summary/title: Removing forever chemicals from drinking water – PhD
This exciting fully funded PhD, with an enhanced stipend of £26,546 per annum, will address the urgent challenge of PFAS (“forever chemicals”) in drinking water. Working with leading UK water industry partners, the student will investigate PFAS removal by adsorption processes using laboratory experiments and will use the findings to develop simple tools to predict treatment performance and improve drinking water protection. The project offers excellent training programme opportunities alongside close collaboration with industry and outstanding career development opportunities.
Deadline : 15 Jul 2026
(05) PhD Degree – Fully Funded
PhD position summary/title: Predictive models for sustainable mango supply chains PhD
This interdisciplinary project sits at the interface of postharvest engineering, data science, mathematical modelling, and sustainable food systems. Global fresh produce supply chains face urgent challenges to reduce carbon emissions, minimise food waste, and improve energy and resource efficiency while maintaining high product quality. Mango supply chains provide an ideal real-world model, involving international logistics, biological variability, and energy-intensive ripening processes. Recent advances in sensor technologies, predictive modelling, and digital control systems offer new opportunities to optimise postharvest operations. By integrating engineering and data-driven approaches, this research will help develop smarter, lower-carbon supply chains that improve efficiency, reduce losses, and support Net Zero goals.
The project will develop innovative sensing modelling control systems to optimise mango ripening and storage under commercial conditions. The doctoral researcher will characterise physical, biochemical, and sensory indicators of fruit ripeness and design sensor-based monitoring systems to track environmental and physiological changes in real time. Mechanistic and predictive models will be developed to link environmental conditions to fruit behaviour and identify optimal ripening strategies. These models will be integrated into industrial ripening software platforms to enable adaptive environmental control. The research will combine laboratory experimentation, advanced data analysis, and industrial pilot trials to deliver practical, scalable solutions for improving efficiency, consistency, and sustainability in fresh produce supply chains.
Deadline : 29 Jul 2026
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(06) PhD Degree – Fully Funded
PhD position summary/title: Mitigation of radiation and hydrogen damage with laser peening through multiscale modelling PhD
Fusion energy is one of the most exciting scientific challenges of our time, offering the prospect of clean, abundant and reliable power for future generations. To make fusion a commercial reality, we need materials that can survive extreme conditions – high temperatures, intense irradiation, hydrogen exposure and complex mechanical loads. Because existing experimental facilities cannot fully replicate these environments, multiscale, physics‑based modelling has become essential to predict material performance and design next‑generation components.
One promising route to improving material resilience is Shock Laser Peening (SLP), an advanced surface‑modification technique that introduces deep compressive stresses, increases defect‑sink density, and refines microstructure. Early studies indicate that SLP may significantly reduce hydrogen and irradiation‑induced embrittlement – two of the most critical degradation mechanisms in fusion systems.
Deadline : 29 Jul 2026
(07) PhD Degree – Fully Funded
PhD position summary/title: Levantine Faience in context: A multidisciplinary study – PhD
This is a fully-funded PhD studentship, including full fees and a stipend, sponsored by a grant for the Israel Science Foundation. The aim of the project is to study a large corpus of faience (an ancient, glazed ceramic) with the aim of determining production techniques, provenance and use. The project will combine museum skills with archaeological interpretation and a range of established and relatively new analytical techniques. The successful candidate can expect to work both in the UK and at the Israel Museum in Jerusalem, with the potential for other visits to laboratories and sites in Europe and the Levant.
Deadline : 15 Jul 2026
(08) PhD Degree – Fully Funded
PhD position summary/title: Evaluating the feasibility of social, economic, and environmental sustainability strategies for explosive waste management in small manufacturing facilities – PhD
This research aims to identify and evaluate sustainability strategies across social, economic, and environmental dimensions that offer the greatest potential for routine, practical implementation in these contexts.
The study will adopt a multi-criteria assessment framework combining environmental impact analysis, cost benefit evaluation, and social acceptability measures. It will examine current waste treatment and disposal methods, alongside emerging innovations such as waste valorisation, circular material use, and low-energy remediation technologies. Field studies and stakeholder engagement will be conducted to understand operational constraints, regulatory barriers, and opportunities for knowledge transfer and collaboration.
Deadline : 02 Sep 2026
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(09) PhD Degree – Fully Funded
PhD position summary/title: Evaluating efficacy of supercritical water oxidation to valorise organic waste to achieve net zero targets and mitigate pollution PhD
This research addresses an emerging challenge of managing wet organic wastes, recovering resources and dealing with harmful contaminants such as PFAS, metals and microplastics. Supercritical water oxidation [SCWO] of wet organic wastes is an emerging, low TRL technology which has demonstrated potential for effectively managing persistent pollutants, such as PFAS compounds and microplastics.
This PhD will aim to understand the mechanisms involved in the breakdown of wet organic wastes and contaminants during supercritical water oxidation.
Cranfield University has an international reputation in thermochemical conversion, including energy from waste utilising combustion, gasification and pyrolysis technologies. Kairos Carbon has deep expertise in waste processing, carbon markets and technology development. Cranfield and Kairos are working together on an Innovate UK-funded project to develop a pilot-scale SCWO reactor, presenting the PhD researcher the opportunity to work as part of a collaborative team seeking to demonstrate SCWO has a viable technology for treating wet wastes and recovering valuable resources.
The PhD research is expected to generate novel understanding of wet waste conversion processes in SCWO reactors, having impact in enhancing process performance and resource recovery.
Deadline : 11 Mar 2026
(10) PhD Degree – Fully Funded
PhD position summary/title: COLIMIND: Synthetic biology-enabled sensing and typing of stressed coliforms in drinking water PhD
This exciting fully funded PhD, with an enhanced stipend of £31,805 per annum (with fees covered) through the EPSRC TechExpert Pilot scheme, is sponsored by the NERC Doctoral Focal Award in Engineering Biology for Environmental Applications (EngBio4Env) and the Water Research Centre (WRc). This project addresses the challenge of interpreting intermittent coliform detections in drinking water systems, where positive results can arise from multiple biological and operational causes. It combines microbiology, genomics, proteomics, and AI-driven analysis to distinguish between true treatment failures, environmental ingress, and stress-induced recovery of bacteria. The goal is to improve understanding of bacterial survival in water systems and develop tools that support faster, more reliable decision-making for utilities.
Deadline : 05 Aug 2026
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(11) PhD Degree – Fully Funded
PhD position summary/title: Biodegradable plastic training cartridges: The future of sustainable training – PhD
Microplastic pollution has become a major global concern, leading to increasingly strict regulations on the use of plastics. This challenge is particularly significant for training ammunition, where fired cartridge cases and projectiles are dispersed into the environment. Conventional plastics can persist for centuries, contributing to long-term ecological contamination. The student undertaking this project should be knowledgeable of a wide range of biodegradable materials that can with stand explosive heat and dispersion.
A scientific down selection of suitable materials that will be appropriate for the firing of military training ammunition but will also be a sustainable product that biodegrades in the environment, which does not leave hazardous bi-products.
Deadline : 24 Jun 2026
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(12) PhD Degree – Fully Funded
PhD position summary/title: Aerodynamic design and optimisation of high-speed air induction systems for more efficient supersonic transport applications – PhD
This project falls within the disciplines of propulsion-airframe integration and high-speed aerodynamics. It focuses on developing advanced design methods to optimize the interaction between the aircraft body and its engine air induction system. This work will provide the technical foundation needed to make next-generation high-speed platforms environmentally and operationally sustainable.
The project aims to deliver a novel method for the aerodynamic design and optimisation of future high speed aircraft transport systems. It focuses on improving the integration between novel intake configurations and complex diffusers to deliver steadier engine inflow, reduce aerodynamic drag, and increase payload capacity.
Deadline : 24 Jun 2026
About Cranfield University, England – Official Website
Cranfield University is a British postgraduate-only public research university specialising in science, engineering, design, technology and management. Cranfield was founded as the College of Aeronautics (CoA) in 1946. Through the 1950s and 1960s, the development of aircraft research led to growth and diversification into other areas such as manufacturing and management, and in 1967, to the founding of the Cranfield School of Management. In 1969, the College of Aeronautics was renamed the Cranfield Institute of Technology, was incorporated by royal charter, gained degree awarding powers, and became a university. In 1993, it adopted its current name.
Cranfield University has two campuses: the main campus is at Cranfield, Bedfordshire, and the second is at the Defence Academy of the United Kingdom at Shrivenham, southwest Oxfordshire. The main campus is unique in the United Kingdom (and Europe) for having its own airport – Cranfield Airport – and its own aircraft, used for teaching and research.
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