16 Fully Funded PhD Programs at Cranfield University, England
Are you holding Master’s degree and looking for fully funded PhD positions? Cranfield University, England invites online application for multiple funded PhD Programs / fully funded PhD positions in various research areas.
Candidates interested in fully funded PhD positions can check the details and may apply as soon as possible. Interested and eligible applicants may submit their online application for PhD programs via the University’s Online Application Portal.
1. Fully Funded PhD Position in Multi-dimensional Optimal Order Detection techniques for Arbitrary Lagrangian Eulerian (schemes) for compressible flows
Summary of PhD Program:
A fully funded PhD studentship with a bursary of £25,000 p.a. (tax-free) plus UK Home student fees for four years in the Centre of Computational Engineering Sciences at Cranfield University. This is a great opportunity to work closely with AWE, for advancing state-of-the-art mathematical models and simulation capabilities. We are looking for an enthusiastic and motivated researcher with a strong interest in computational fluid dynamics (CFD), to join a diverse and inclusive research group. The Advanced Numerical Methods (ANM) Group specialises in cutting-edge research and consulting services focused on pioneering methods for CFD.
Application Deadline: 19 Jun 2024
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2. Fully Funded PhD Position in Multi-body Hypersonic Aerodynamics
Summary of PhD Program:
This is a full funded PhD (fees and bursary) in hypersonic aerodynamics in collaboration with EPSRC. The overall aim of the research is to investigate what are the aerodynamic interference characteristics, at hypersonic speeds, that are likely to adversely affect multibody separation. The research encompasses experimental and computational elements to evaluate the aerodynamics of multibody separation. Experiments using canonical configurations in the Cranfield hypersonic gun tunnel will statically represent the multi-body aerodynamics. The computational work will use Cranfield’s high-order UCNS3D code.to simulate hypersonic multi-body aerodynamic interactions and coupled trajectory modelling.
Application Deadline: 12 Jun 2024
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3. Fully Funded PhD Position in Modelling capability for chemical aging of gun propellants
Summary of PhD Program:
Conventional propellants degrade over time at rates depending on factors such as their composition as well as external variables like storage temperature. Unfavourable conditions could reduce by many years the service life of munitions, as it could lead to spontaneous ignition and unplanned explosions with huge consequences. Understanding, measuring and predicting the propellants’ degradation mechanisms under different environmental conditions is vital for the safe storage of munitions.
Application Deadline: 21 Aug 2024
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4. Fully Funded PhD Position
Summary of PhD Program:
This project offers a unique opportunity to work at the forefront of hydrogen and sustainable fuels research. As a PhD student, you will gain valuable experience in thermochemical processes for low-carbon fuel production. You will receive training from the UKRI-funded doctoral training centres and have the chance to participate in entrepreneurial, project management, and technique-specific training. You will also be part of the hydrogen community of practices and MTI research group led by Dr Nabavi. Interactions with Purifier Labs will further enhance your learning and networking opportunities. You will use PL’s hydrothermal gasification (0.5-1 tonne production capacity) and Cranfield facilities for experimental investigations. In addition, you will build upon the process simulation developed at Cranfield and work with existing research to advance the process to the next level.
Application Deadline: 19 Jun 2024
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5. Fully Funded PhD Position in High Energy Propagation and Energy Transfer in poor weather
Summary of PhD Program:
The project is to contribute to a major Ministry of Defence (MOD) research programme intended to develop generation after next technologies for applications in defence and security, and this project will be co-funded by MBDA. The project will be concerned with studying the effects of high energy propagation in poor weather and investigate methods for increasing energy transfer on an intended object. The project will allow the student to acquire expertise in electro-magnetic propagation and sensing with electro-optical (EO), infrared (IR) and radar systems.
Application Deadline: 12 Jun 2024
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6. Fully Funded PhD Position in Extreme learning to handle ‘Big Data’
Summary of PhD Program:
As aerospace platforms go through their service life, gradual performance degradations and unwarranted system failures can occur. There is certain physical information known a priori in such aerospace platform operations. The main research hypothesis to be tested in this research is that it should be possible to significantly improve the performance of extreme learning and assure safe and reliable maintenance operation by integrating this prior knowledge into the learning mechanism.
Application Deadline: Open until filled
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7. Fully Funded PhD Position in Enhancing hydrogen flow metering performance
Summary of PhD Program:
This project offers a unique opportunity to work at the forefront of process measurement technology development. As a PhD student, you will receive training from the UKRI-funded doctoral training centres as well as promoted to participate in entrepreneurial, project management and technique specific training. You will also be a member of the multiphase flow and process systems engineering research community led by Dr Liyun Lao. You will benefit from the visit and training on the E+H’s production and testing sites, and the interactions with the specialist team of the industrial sponsor. The student will also have opportunities to attend conferences to engage with world leading researchers and develop your professional network.
Application Deadline: 19 Jun 2024
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8. Fully Funded PhD Position in Developing Ontologies for Digital Engineering and Manufacturing
Summary of PhD Program:
The ever-increasing use of data in real-world applications is a clear indication that we are moving into the era of Industry 5.0 where human-machine collaboration would be key to enable digital transformation. As the amount of data increases, it is necessary to store, standardise, process, and make data accessible in a way that gets beyond the quirks of different teams and technology. This requires interoperability to be in place to sustain the potential value that we can get from Cyber Physical Systems (CPSs) and the ever-growing richness of information. Interoperability is a vital aspect of modern technology, driving the seamless interaction and collaboration between diverse data sources, software/hardware systems, applications, devices, and enterprises. Managing interoperability sits at the heart of this Cranfield University PhD research project proposal, with an aim to provide an interoperability platform using ontologies to enable the exchange of data across platforms at scale.
Application Deadline: 26 Jun 2024
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9. Fully Funded PhD Position in Design and implementation of a self-sealing specimen chamber to allow shock loading of hazardous materials
Summary of PhD Program:
This PhD will be concerned with the development and proving of a self-sealing containment vessel, to be attached to a gas gun, to enable the study of the shock response of hazardous materials by AWE, the project sponsor. The stipend for the PhD is £19,000 p.a. for a 3-year period. The research will include elements of mechanical design and manufacture, materials behaviour in extreme environments and instrumentation. Regular meetings with AWE colleagues will provide additional support.
Application Deadline: 19 Jun 2024
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10. Fully Funded PhD Position in Advanced Technology Concepts for Hydrogen Fuelled Environmental Friendly Aircraft with GKN
Summary of PhD Program:
A fully funded PhD studentship with GKN and great opportunity to work closely with a leading aerospace organisation at the forefront of Sustainable Aviation to research and develop novel technologies for hydrogen and zero emission aircraft . We are looking for enthusiastic, inquisitive and motivated researchers with a strong interest in aerodynamics and systems design to join a diverse and inclusive research group focusing on technologies for the decarbonisation of aviation and the exploration of advanced aerodynamic and energy based analysis methods.
Application Deadline: 31 Jul 2024
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11. Fully Funded PhD Position in Wave devouring propulsion for marine decarbonisation
Summary of PhD Program:
Ocean waves possess a vast amount of energy ripe for utilisation. The UK urgently needs renewable energy solutions to achieve its Net Zero goals. The push to reduce CO2 emissions from shipping is supported by global agreements, national security concerns, economic benefits, public health, and ethical obligations. A notable innovation aimed at decarbonising shipping is the flapping foil, a wave-powered propulsion device that enables self-propulsion without fuel. This eco-friendly propulsion method transforms wave energy into thrust through submerged flapping foils, creating what is known as Wave Devouring Propulsion (WDP). This technology has the potential to reduce fuel consumption in the shipping industry by 15%.
Application Deadline: 28 Aug 2024
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12. Fully Funded PhD Position in Understanding the Past, Securing the Future: Advanced techniques for the detection of chemical hazards in Archive Repositories through Heritage Science
Summary of PhD Program:
The PhD holder will adapt and optimise the handheld CRIM-TRACK sniffer sensor, currently able to detect vapours of illicit substances, to a new detection scenario of historical pesticides within archives. The investigation will also be extended to other analytical techniques. Application of the novel device to TNA’s large collection (and beyond) will inform variability in worldwide historic archival practices and inform current storage and access regimes.
Application Deadline: 26 Jun 2024
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13. Fully Funded PhD Position in Three-dimensional hybrid composites for repair and recycling
Summary of PhD Program:
This PhD research opportunity focuses on the development of self-healing three-dimensional metal-composite hybrid materials. These will use through-thickness reinforcement to embed metallic elements, acting as a means of targeted heat introduction, to activate re-processable matrices like thermoplastics or vitrimers. This project is funded by EPSRC and Cranfield University and will support the Royal Academy of Engineering Research Fellowship project entitled multifunctional z-direction hybridisation of composites, working in collaboration with the University of Southampton, Laser Additive Solutions, and the National Composites Centre.
Application Deadline: 26 Jun 2024
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14. Fully Funded PhD Position in Sensing wastewater for real-time public health
Summary of PhD Program:
The exciting PhD opportunity was funded by 5-year Leverhulme Trust Leadership Award, which aims on sensing wastewater for real-time public health, particularly on the development of novel low-cost and rapid sensors for rapid and on-site wastewater surveillance. We are offering two fully funded national PhD studentship covering tuition fees, competitive stipend, research and consumables, and travel for international conference. The candidate will be working with a highly interdisciplinary and international team to develop the advanced sensors technology for wastewater surveillance (wastewater-based epidemiology) to provide new understanding for real-time public health by monitoring of chemical and biological biomarkers in wastewater and advancing sample preparation method for complex matrix.
Application Deadline: 26 Jun 2024
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15. Fully Funded PhD Position in Optimise and automate pre-production for wire based Directed Energy Deposition (w-DEDAM) production
Summary of PhD Program:
This 4-year, fully funded PhD project centres on the automation and optimisation of the pre-production process for wire-based Directed Energy Deposition Additive Manufacturing (w-DEDAM). It is supported by EPSRC Industrial Cooperative Awards in Science & Technology (CASE) training grants and WAAM3D Ltd, our industry partner. Additionally, the industrial partner offers a 3-month placement annually during the project. The project aims to explore cutting-edge digital technologies for w-DEDAM pre-production, including machine learning, deep learning, Design for Additive Manufacturing (DfAM), and advanced optimisation algorithms.
Application Deadline: 26 Jun 2024
Apply now
16. Fully Funded PhD Position in Production of hydrogen and sustainable fuels in solid oxide electrolysis cell
Summary of PhD Program:
Hydrogen and sustainable fuels will play a pivotal role in achieving net-zero economy. Cranfield is offering this PhD studentship, sponsored by EPSRC and EDF Energy UK, developing solid oxide electrolysis technologies to convert steam and/or carbon dioxide into hydrogen and sustainable fuels. The proposed research will focus on the development and testing of novel cost-effective electrocatalysts towards a superior reaction kinetics on the electrodes during electrolysis of steam and/or carbon dioxide. A minimum annual stipend of £19, 237 (tax free) plus fees for four years will be provided.
Application Deadline: 19 Jun 2024
Apply now
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