Loughborough University, Leicestershire, 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 Loughborough University, Leicestershire, England.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: Accelerated Systems Assurance with Model-Based Systems Engineering
MBSE offers a framework for considering all aspects of a requirement, and its solution, in a logically integrated way that can persist and evolve through the whole lifecycle of a solution or product. As such, there is huge potential for effectively and efficiently tackling the real-life complexities of problems. However, this potential is most often not unlocked.
Frazer-Nash is a leading systems, engineering and technology company that helps organisations deliver innovative engineering and technology solutions to make lives safe, secure, sustainable, and affordable. Co-funded by Frazer-Nash and EPSRC, this project will focus on developing an end-to-end MBSE process that includes considerations of safety and certification leading to more speedy assurance; the research will consider both technical and non-technical challenges associated with project deliverables.
The project is suitable for students who have a STEM background. The programme includes formal teaching in model-based systems engineering from Loughborough Systems Engineering experts and industrial leaders. Throughout the duration of the programme, the student will be hosted at one of Frazer-Nash’s office locations for the majority of their time. This will provide the student with a suitable working environment, access to necessary infrastructure, and opportunities for interaction with stakeholders.
Deadline : 9 August 2024
(02) PhD Degree – Fully Funded
PhD position summary/title: Automated High Throughput Machine Learning-guided Condition Optimisation for Biocatalysis
This AstraZeneca-supported project will focus on developing new optimisation approaches that integrate high throughput systems with molecular modelling of biocatalysts and machine-learning approaches. As part of our team, you will help to expand automated and modular monitoring for parameters of interest, automate experimental processes for enzyme mutant production, and combine these with real-time modelling information to produce optimised systems that find both the best enzyme coupled with the best conditions for chemicals production. This will help de-risk and reduce the significant costs currently incurred in bringing a biocatalytic processes to scale.
You will also have a range of opportunities to gain valuable transferrable skills (including through our doctoral college), network with international and industry partners, and be well-set up for a role in either industry, data science or academia at the end of the programme.
Deadline : 2 August 2024
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(03) PhD Degree – Fully Funded
PhD position summary/title: Classifying net zero strategies in construction projects and the extent of their effectiveness
Whereas the literature provides insights into a range of net zero strategies that are currently being implemented across the construction sector, there is an emphasis on certain practices over others (often operational-related) suggesting a lack of definitive classification of the full range of operational and embedded strategies that could be utilised.
The fluidity of the term and the multidisciplinary nature of the various practices may compromise the feasibility of achieving a net zero status suggesting the necessity for adopting a fully integrated approach at the different construction and occupancy stages.
This study aims to classify net zero strategies in construction projects and measure the contribution of integrating operational and embodied emission considerations to the success of achieving net zero buildings. The study aim will be achieved through conducting semi-structured interviews with practitioners and measuring emissions of selected case studies.
Deadline : 27 August 2024
(04) PhD Degree – Fully Funded
PhD position summary/title: Climate change-resilient geotechnical infrastructure
This PhD will take advantage of the new National Engineered Slope Simulator (NESS) facility; a large-scale, configurable, climate-controlled clay slope testing facility. The long-term experiments will deploy large (5×3×2 m; 45-tonne) compacted clay samples, which are subjected to accelerated wetting/drying cycles to deteriorate hydromechanical performance.
Depending on the selected PhD candidate’s strengths and interests, the project could take one of four directions:
- Deliver a step-change in understanding of weather and climate change impacts on earthwork hydromechanical performance, which focuses principally on large- and element-scale laboratory testing.
- Develop novel diagnostic techniques for asset condition appraisal and deterioration detection, which will use extensive laboratory measurements to establish data fusion and AI analytics.
- Advance capability to forecast deterioration and failure, which will use large-scale testing, numerical simulations, and probabilistic techniques.
- Enhance understanding of intervention behaviour (e.g., drains, soil nailing) and establish strategies to optimize type, timing, and distribution of interventions to balance added capacity, life extension, cost, and carbon.
Deadline : 27 August 2024
(05) PhD Degree – Fully Funded
PhD position summary/title: Computational Studies of Gas Adsorption in Special Nuclear Materials (SNMs).
In this project, atomistic simulations will be used to examine the adsorption and desorption of gases in these materials. This is an essential requirement to understand material stability over the many years that storage requires. The project will focus on extended defects and surface studies, where thermodynamic stability and transport properties, oxidation state changes and electronic properties will be investigated.
The methodology will use numerical quantum mechanics, molecular dynamics and extended time scale techniques. The project will utilise high performance computing (HPC) systems at Loughborough and nationally to investigate equilibrium and dynamic evolution of systems of atoms over a range of time and length scales. These techniques will allow direct comparison with experimental work being carried out with the special nuclear materials team at Sellafield and their experimental collaborators.
Strong numeracy and numerical methods skills and a willingness to learn programming and parallel computing techniques are essential requirements for this project. The candidate will be required to attend seminars and other internal events regularly.
Deadline : 11 August 2024
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(06) PhD Degree – Fully Funded
PhD position summary/title: Developing a manufacturing strategy for the production of therapeutic extra-cellular vesicles
This PhD project builds on aligned industry and EPSRC funded projects within the research group of Dr Owen Davies (OD) that seek to develop EV therapies for a variety of therapeutic applications (e.g. wound healing and regenerative orthopaedics).
In this project, the successful candidate will apply bioreactors to scale up EV manufacture and identify solutions to permit off the shelf applications (e.g. freeze-drying). You will identify critical quality attributes relevant to EV therapeutics and monitor these during the manufacturing process. These developments will be critical in ensuring real world impact is achieved so that promising regenerative therapies have the best chance of progressing from bench to bedside.
Deadline : 7 August 2024
(07) PhD Degree – Fully Funded
PhD position summary/title: Effect of triglyceride supplementation before and during endurance exercise on metabolism and performance responses in trained athletes
This project examines the effect of supplementation with specifically designed triglycerides in the days and weeks before, as well as during, prolonged endurance exercise, on endogenous and exogenous substrate use, and endurance performance. This will involve laboratory-based human data collection using endurance exercise to explore relevant metabolic, physiological, perceptual and performance outcomes.
The Doctoral Researcher will develop skills involved in running exercise nutrition/physiology intervention studies, collection and analysis of various human samples (e.g. blood by venepuncture/cannulation, urine, saliva etc.), the application of stable isotopes to study exogenous and endogenous substrate use, as well as the direct and indirect assessment of laboratory-based cycling performance.
Deadline : 7 August 2024
(08) PhD Degree – Fully Funded
PhD position summary/title: Empowering people in prison through sport
This collaborative PhD opportunity is supported by the 3Pillars Project which is a not-for-profit Charitable Incorporated Organisation (CIO). 3Pillars Project launched a new 5-year strategy to grow and share their work in summer 2024. In addition, they were granted £300,000 by the National Lottery Community Fund to deliver their GAMEPLAN intervention over five-years in several prisons across the Midlands. The aim for 3Pillars is to be able to evidence the impact of their work over the duration of the project given the complexities that exist in delivering both growth and impact.
GAMEPLAN engages people in prison through sport with extensive follow on and post release mentoring support using the core pillars of exercise, education, and ethos as a foundation for effective rehabilitation. The approach utilises positive role models, sport, and the power of community to equip young men with a toolkit of skills to forge a brighter future. A core strand of the implementation of the 5 Year Strategy is demonstration of the impact of the work in order to advocate more broadly within the sector.
Deadline : 28 July 2024
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(09) PhD Degree – Fully Funded
PhD position summary/title: Environmental Evaluation of Microcomb Stability
This PhD project, blending theoretical and experimental approaches, aims to revolutionize quantum technologies by developing ultra-precise timing counters. Central to this endeavour is the advancement of optical frequency combs, which are the cornerstone of modern optical atomic clocks. These combs, recognized with a Nobel Prize in 2005, consist of ultraprecise, equally spaced laser lines. Our project, conducted at the forefront of integrated photonics, nonlinear physics, and smart optical computation, will push the boundaries of miniaturization for these sources. The focus is on a ground-breaking nonlinear optical wave, known as the temporal laser cavity soliton, a recent discovery at Loughborough’s Emergent Photonics Lab [1,2], for creating ultra-efficient and resilient microcombs. You will be part of Prof Alessia Pasquazi’s dynamic team in collaboration with DSTL, contributing to novel science, advancing industrial impact and producing leading-author publications in peer-reviewed journals. Presentations at selected international conferences will also be a key aspect of your role.
Deadline : 31 July 2024
(10) PhD Degree – Fully Funded
PhD position summary/title: Fire performance and durability of integrated engineered timber products
This project addresses knowledge gaps surrounding the fire fuel load contribution of engineered timber products (following previous work by the principal supervisor on softwoods). Initially, CLT, LVL, OSB/3 and glulam specimens provided by industry partners will be subjected to a range of specific, controlled temperatures using ceramic heating pads, with the power input, mass loss, and any visual deterioration recorded. This will provide accurate information regarding enthalpic input and associated effects during the development of a fire, with Milner Associates advising on interpretation and application.
Numerical analysis (COMSOL FEA) of heat flow and material degradation will be validated against these experiments, allowing for more wide-ranging parametric studies to be conducted. By applying these models to full-scale structural systems, e.g., walls, floor panels and modules, the effects of thermal degradation on timber components and fasteners will also be investigated; of particular interest are integrated wall modules with increasingly thick layers of insulation to satisfy revised building energy requirements in Approved Document L.
Deadline : 27 August 2024
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(11) PhD Degree – Fully Funded
PhD position summary/title: Funded Vice Chancellors Scholarship in Inclusive Engineering; Assessing extended reality tools and digital technologies for accessible, inclusive, experiential, and flexible training
Engineering is potentially the most important career in the world, influencing the lives of billions of people worldwide due to the enormous range of tools, equipment and products designed or created by engineers. Tackling engineering skills shortages is the most important business imperative work on Equity, Diversity and Inclusion (EDI) for the future of engineering identified by the Royal Academy of Engineering, with large gaps in graduates required by industry. With the Royal Academy of Engineering, Professional Engineering Institutions, Charities and Global Engineering Companies recognising these issues, many initiatives have begun to deliver greater recognition of challenges surrounding under-representation.
Deadline : 31 July 2024
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(12) PhD Degree – Fully Funded
PhD position summary/title: Funded Vice Chancellors Scholarship in Inclusive Engineering; Belonging Built-In Engineering
Tackling engineering skills shortages is the most important business imperative work on Equity, Diversity and Inclusion (EDI) for the future of engineering identified by the Royal Academy of Engineering, with large gaps in graduates required by industry.
With the Royal Academy of Engineering, Professional Engineering Institutions, Charities and Global Engineering Companies recognising these issues, many initiatives have begun to deliver greater recognition of challenges surrounding under-representation.
The Belonging Built-In Engineering Project ambitiously aims to develop the culture of belonging and improve inclusion in engineering for diverse under-represented groups. Improving inclusion can increase performance, growth, and innovation, and improve health, safety, and wellbeing across engineering disciplines and engineered products.
Deadline : 30 September 2024
(13) PhD Degree – Fully Funded
PhD position summary/title: Funded Vice Chancellors Scholarships in Inclusive Engineering; People to Products (2 PhDs available)
The Loughborough University Vice Chancellors Research Cluster in Inclusive Engineering led by Dr Elizabeth Ratcliffe aims to develop Future Leaders in Inclusive Engineering; where engineered products and services are accessible, inclusive and free from discrimination and bias for more ethical, sustainable, risk-free engineering.
Two funded PhDs are available, joining a team of six doctoral researchers working on Inclusive Engineering projects that aim to deliver change in how we develop inclusive engineering products and services across a wide range of engineering disciplines and Higher Education. Working collaboratively with the industrial partners and wider networks developed through our Inclusive Engineering Excellence Hub that is funded by the Royal Academy of Engineering and gaining widespread recognition for its important work in this space.
Deadline : 31 July 2024
(14) PhD Degree – Fully Funded
PhD position summary/title: Future-proofing housing developments to mitigate climate change
To ensure future-proofing of new-build homes in large scale developments and contribute to the advancement of sustainable housing practices in the UK, this PhD project will:
- Identify and evaluate sustainable building design typologies (at building and site scale using building energy modelling) that demonstrate best practices in mitigating the impacts of climate change and promoting environmental sustainability within new-build developments.
- Create a design decision-making toolkit with practical guidelines for implementing sustainable design solutions in new housing developments.
Deadline : 27 August 2024
(15) PhD Degree – Fully Funded
PhD position summary/title: Improvements in purity analysis and the production of suitable reference materials for renewable applications
This project will be conducted in collaboration with EffecTech Ltd global leaders in gas measurement.
Renewable applications such as hydrogen fuel cells and carbon capture technologies are seeing increasingly stringent standards for acceptable impurity levels for hydrogen and carbon dioxide respectively. This in turn drives the requirements for suitable reference materials with traceable compositions for the validation of the instrumentation used to measure these impurity levels.
Deadline : Open until filled
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(16) PhD Degree – Fully Funded
PhD position summary/title: Improving public engagement on disruptive green technology projects
This research will critically examine the efficacy of current public engagement efforts for disruptive green technology projects. Within project management studies, public engagement has conventionally been addressed under the remit of stakeholder management (Chow & Leiringer, 2020), but this fails to capture the way stakeholder networks evolve dynamically over time (Missonier & Loufrani-Fedida, 2014). Moreover, opposition to urban development has often been labelled as NIMBY-ism (Carley et al., 2020), further alienating disenfranchised community groups.
This research will take the alternative debates to NIMBY-ism and the deficit model as its starting point to establish an integrated framework for public engagement (cf. Burningham et al., 2015). The goal is to develop two-way communication channels that enable the public to participate in decision-making processes and to enable the harnessing of local knowledge to improve project outcomes.
Deadline : 27 August 2024
(17) PhD Degree – Fully Funded
PhD position summary/title: Integrating Model-Based Systems Engineering with Business Strategies
The project is suitable for students who have either a STEM or business background. The programme includes formal teaching in model-based systems engineering from Loughborough Systems Engineering experts and industrial leaders. Throughout the duration of the programme, the student will be hosted at one of Rolls-Royce’s office locations for the majority of their time. This will provide the student with a suitable working environment, access to necessary infrastructure, and opportunities for interaction with stakeholders.
Deadline : 9 August 2024
(18) PhD Degree – Fully Funded
PhD position summary/title: Intelligent automation of low-carbon offsite construction delivery
Therefore, this research project would explore the use of AI in determining the current levels of emissions and develop optimal ways for low-carbon offsite construction. In this project, offsite construction processes would be characterised and classified based on emissions, and machine learning techniques would be used to analyse effective ways of achieving low-carbon offsite construction in projects.
The study contributes significantly to low-carbon construction research by exploring the efficiency of new solutions and technologies in offsite construction for low-carbon outcomes. This would enhance effective decision-making for practitioners in construction projects with carbon emissions targets and further facilitate the development of a digital twin approach for carbon emissions evaluation in offsite constructio
Deadline : 27 August 2024
(19) PhD Degree – Fully Funded
PhD position summary/title: Investigation of the maximum allowable mud pressure during Horizontal Directional Drilling
The research programme will comprise both physical and numerical modelling. A series of physical model experiments will simulate horizontal borehole failure: mud infiltration and shear zone development will be investigated by pumping mud into drilled horizontal boreholes within saturated clay and sand.
The influence of burial depth, multiple soil layers (e.g. dense sand covered by different thicknesses of loose sand) and adjacent infrastructure (e.g. telegraph poles, which may be the easy channels for mud infiltration) will be investigated. Sensing will be used to measure the mud and pore pressures, and soil movement and strains will be monitored using Geo-Particle Image Velocimetry. Numerical modelling approaches will be developed and verified against the physical evidence, and parametric studies will be undertaken to develop new design equations for estimating the maximum allowable mud pressure
Deadline : 27 August 2024
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(20) PhD Degree – Fully Funded
PhD position summary/title: Lifelong learning and shareable models: How to reduce the energy footprint of AI and contribute to a sustainable decarbonised future
Current AI models are not designed to reuse and share knowledge. When conditions change, e.g., data distributions, locations, or platforms, retraining needs to occur from scratch. In some cases, like for foundation models or for complex robotics tasks, the process requires very large amount of data and energy. Recent advances towards lifelong learning and sharable models promise to create a new efficient AI landscape in which machine-learned knowledge can be built incrementally and worldwide with optimized energy use. This PhD project aims to advance the latest lifelong learning and sharable AI models to contribute to reduce the energy footprint of AI. An overview of this emerging field can be found in a recent publication from our group on Nature Machine Intelligence https://doi.org/10.1038/s42256-024-00800-2
Deadline : 09 August 2024
(21) PhD Degree – Fully Funded
PhD position summary/title: Low-cost high-performance catalysts for green hydrogen production from water and seawater electrolysis
With the transition to alternative fuels, there is an increase in demand for new sources. Considering hydrogen, current production and supply strategies need to adjust to continue to service the needs of its expanding customer base. This PhD will be conducted in collaboration with BOC, working closely with the Remote Operating Centre who operate and optimise all their H2 plants, bulk distribution and the supply chain.
Reaching global net-zero emissions targets, to tackle climate change and pollution, needs rapid growth in sustainable hydrogen technologies. This rapid growth needs many existing challenges, including production cost, supply chain development and social requirements to be addressed.
Our fully funded EnerHy Centre for Doctoral Training program will provide you with the key skills needed for a career, whether in industry, policy, or academia, in the hydrogen economy. EnerHy will meet the challenges of a global hydrogen strategy as well as aligning many of the United Nations Sustainability goals. You will study in a supportive cohort undertaking intellectually challenging and industrially relevant projects to accelerate the affordability, scalability, and sustainability of green hydrogen.
Deadline : Open until filled
(22) PhD Degree – Fully Funded
PhD position summary/title: Low-cost high-performance catalysts for green hydrogen production from wastewater
Huge volumes of wastewater are produced from both residential, commercial, and industrial settings. Advanced processes to clean and purify this water already exist, however, there remains both liquid and solid products from these processes that require disposal. While conventionally seen as waste, these products do in fact contain significant amounts of extractable hydrogen that can be exploited. This embraces the ethos of a circular economy in which products are reused at their highest value, as opposed to being disposed of, to improve sustainability and eliminate waste and pollution.
This project will explore the feasibility of catalytically cracking and pyrolyzing compounds in these waste streams to produce hydrogen effectively and efficiently and with minimal impurities that could limit its application in downstream processes. The project will involve designing and testing thermal catalytic processes and assessing product distributions to understand their feasibility in an industrial setting. You will gain experience in process chemistry and chemical engineering, material synthesis, and catalytic science. You will also interact and work with a range of industrial partners within the CDT to build experience in addressing real-world challenges and solutions in sustainable hydrogen production.
Deadline : Open until filled
(23) PhD Degree – Fully Funded
PhD position summary/title: Miniaturized optical atomic clocks: pioneering quantum technology for ultra-precise timing with microcombs
This PhD project, blending theoretical and experimental approaches, aims to revolutionize quantum technologies by developing ultra-precise timing counters. Central to this endeavor is the advancement of optical frequency combs, which are the cornerstone of modern optical atomic clocks. These combs, recognized with a Nobel Prize in 2005, consist of ultraprecise, equally spaced laser lines. Our project, conducted at the forefront of integrated photonics, nonlinear physics, and smart optical computation, will push the boundaries of miniaturization for these sources. The focus is on a groundbreaking nonlinear optical wave, known as the temporal laser cavity soliton, a recent discovery at Loughborough’s Emergent Photonics Lab, for creating ultra-efficient and resilient microcombs. You will be part of Prof Alessia Pasquazi’s dynamic team, contributing to novel science and producing leading-author publications in peer-reviewed journals. Presentations at selected international conferences will also be a key aspect of your role.
Deadline : 5 August 2024
(24) PhD Degree – Fully Funded
PhD position summary/title: Model Quality Assessment for MBSE or Enabling Effective MBSE with Optimal Organisational Structure
Co-funded by Leonardo and EPSRC, this project will either focus on (i) how organisational structure could enable more effective use of MBSE on projects; or (ii) how qualities of models can be assessed objectively with particular emphasis on MBSE supporting rapid development of products. The choice of project focus will be agreed between the student, Leonardo and Loughborough University during the first year of the programme.
The project is suitable for students who have a STEM background. The programme includes formal teaching in model-based systems engineering from Loughborough Systems Engineering experts and industrial leaders. Throughout the duration of the programme, the student will be hosted at one of Leonardo’s office locations for the majority of their time. This will provide the student with a suitable working environment, access to necessary infrastructure, and opportunities for interaction with stakeholders. The project will include the opportunity for collaboration on solving complex systems problems.
Deadline : 9 August 2024
(25) PhD Degree – Fully Funded
PhD position summary/title: Next-Generation Optical Imaging with Synthetic Peptides and Lanthanide Probes
Peptides and proteins are the working molecules of life; they make up the fundamental machinery that are responsible for most biological processes. They are responsible for the shapes and structures of cells and tissues and the regulation of life cycle functions, including development, growth, maturation, reproduction, ageing and death. This programme will combine the targeting, localisation behaviour and ease of functionalisation of synthetic peptides with the unique optical and paramagnetic properties of lanthanide probes to generate advanced sensing and imaging tools that are practicable by the wider biological and medical research community. The student will have the possibility to spend time working in the laboratories of international collaborators to synthesise specialised peptides and perform conjugation chemistry.
The student will receive excellent training in organic synthesis, study of supramolecular host-guest interactions, photophysical chemistry and bioassay development. They will be an active member of the Butler group, which has weekly progress/literature meetings, and will be supported by postdoctoral researchers and experienced PhD students. The student will be very well trained for roles in industry – pharmaceutical and biotechnology companies increasingly require scientists with combined synthetic and bioanalytical skills. Therefore, there are many potential employability options for the student, in addition to postdoctoral opportunities in this highly active research field.
Deadline : 2 August 2024
(26) PhD Degree – Fully Funded
PhD position summary/title: Novel multi-objective optimisation strategies for enhanced efficiencies and agility in hydrogen gas supply
With the transition to alternative fuels, there is an increase in demand for new sources. Considering hydrogen, current production and supply strategies need to adjust to continue to service the needs of its expanding customer base. This PhD will be conducted in collaboration with BOC, working closely with the Remote Operating Centre who operate and optimise all their H2 plants, bulk distribution and the supply chain.
Reaching global net-zero emissions targets, to tackle climate change and pollution, needs rapid growth in sustainable hydrogen technologies. This rapid growth needs many existing challenges, including production cost, supply chain development and social requirements to be addressed.
Our fully funded EnerHy Centre for Doctoral Training program will provide you with the key skills needed for a career, whether in industry, policy, or academia, in the hydrogen economy. EnerHy will meet the challenges of a global hydrogen strategy as well as aligning many of the United Nations Sustainability goals. You will study in a supportive cohort undertaking intellectually challenging and industrially relevant projects to accelerate the affordability, scalability, and sustainability of green hydrogen.
Deadline : Open until filled
(27) PhD Degree – Fully Funded
PhD position summary/title: Power and Data Dual Modulation for Improved DC Microgrid Control
The overall management of the DC MG relies on information and communication technologies among power electronics interfaces. Power and data dual modulation based on power electronics interfaces provides a new solution to effectively integrate reliable communication so that data can be generated and transmitted through power conversion with low cost but high reliability, high real-time performance and high synchronization with power flow.
The research will focus on modelling of power electronic converters, DC MG analysis from both power electronics and communication perspectives, control and management of DC MG, and simulations/experiments for verification and optimisation.
This project provides an exciting opportunity for successful candidate to explore in the interdisciplinary area of power electronics, communication and control. The Centre for Renewable Energy Systems Technology (CREST) at Loughborough University will also provide multidisciplinary support with advanced platforms and equipment of renewable generations and energy storages
Deadline : 9 August 2024
(28) PhD Degree – Fully Funded
PhD position summary/title: Progressive collapse analysis of steel structures
Our project aims to enhance the quantification of the role of connections in the progressive collapse resistance of steel structures through a combination of analytical and numerical investigations. Analytical models will be developed to characterize the moment-rotation curves of various steel connections, taking into account their rotation capacity, material type, and configuration. These curves will then be incorporated into finite element simulations to conduct reliability analyses and assess the resilience of steel frames under different connection scenarios. Additionally, these simulations will explore the influence of connection failure modes on load redistribution.
Deadline : 27 August 2024
(29) PhD Degree – Fully Funded
PhD position summary/title: Quantifying the Impact of Digitalisation and Automation on Infrastructure Resilience
This PhD project aims to develop a holistic method for quantifying the impact of applying digitalisation and automation technologies on infrastructure resilience.
Specifically, the project will:
• Define resilience of transport infrastructure, considering its interconnectedness with other networks.
• Identify digitalisation and automation technologies that can enhance transport infrastructure resilience, along with their Technology Readiness Levels.
• Evaluate resilience before and after applying these cutting-edge technologies.
• Propose the optimal combination of such technologies to enhance resilience.
• Assess the practical feasibility of the proposed technologies, considering socio-economic, legal, and environmental aspects.
Deadline : 27 August 2024
(30) PhD Degree – Fully Funded
PhD position summary/title: Quantum Systems Engineering
The UK has invested significant funding to transition quantum theories into quantum products to create a quantum-enabled economy within the next 10 years, to revolutionise healthcare, energy, transport and many other sectors.
NPL, the UK’s national metrology institute, is developing a fully functioning, thoroughly characterised, local area quantum network (QLAN) linking heterogeneous nodes across its site. It will make this testbed available to users for testing hardware and applications. NPL will lead on the testing and security evaluation of the testbed and collaborate widely on the technology development.
Funded by the National Physical Laboratory, this project will aim to develop novel approaches, methods and tools to facilitate the design of this network as it evolves and verification of its performance, or specific aspects of it, contributing to the overall assurance of the quantum network.
Deadline : 2 August 2024
(31) PhD Degree – Fully Funded
PhD position summary/title: Research into Accessible Transport
There is evidence that the lived experiences of disabled people are not considered enough in the design of transport vehicles, modes, and services. As such, in 2021, the Innovation team at the Motability Foundation commenced a pilot scholarship programme for people with lived experience of disability to undertake research into accessible transport. This is a long-term investment in people who may have a long career in transport design having the opportunity to work on complex transportation problems that are directly relevant to many disabled people. The PhD project will be conducted within this framework.
Deadline : 31 July 2024
(32) PhD Degree – Fully Funded
PhD position summary/title: Strategic Use of Digital Technologies in Delivering Modern Methods of Construction (MMC)
Through the integration of information modelling, this project will investigate the strategy associated with digitally transforming processes in organisations who are delivering pre-manufactured value (PMV), aiding their competitive advantage by addressing their internal and external challenges. Hence, the research project aims to promote the strategic standing and survival of MMC organisations through digitalisation in the United Kingdom.
The objectives are:
1. Explore the internal and external factors influencing the business continuity of organisations offering turnkey pre-manufactured houses.
2. Examine the role of digitalisation in overcoming the internal factors undermining the effective design for manufacturing and assembly of turnkey pre-manufactured houses.
3. Examine the role of digitalisation in overcoming the external factors undermining the effective design for manufacturing and assembly of turnkey pre-manufactured houses.
4. Develop a holistic digital platform based on information modelling principles to assist organisations’ strategic standing in the construction sector.
Deadline : 27 August 2024
(33) PhD Degree – Fully Funded
PhD position summary/title: System issues with designing a large hydrogen passenger vehicle
The goal of this project is to explore how to size, design and operate a pure-electric hydrogen fuel cell propulsion system for large off-road capable passenger vehicles. This includes the fuel cell system, hydrogen storage system, thermal management system, hybrid battery and power electronics, and their optimisation for performance, efficiency, environmental range, robustness and mass. One of the challenges is the thermal management of the fuel cell, which generates low grade heat compared to an internal combustion engine, putting additional load on the cooling system, especially when used in hot climate, off road, uphill, or for towing purposes.
Deadline : Open until filled
(34) PhD Degree – Fully Funded
PhD position summary/title: The impact of hydrogeological factors on the degradation of masonry-lined railway tunnels
This project will:
(i) enhance understanding of the degradation processes;
(ii) investigate inspection and condition assessment strategies; and
(iii) develop modelling techniques, leveraging machine learning and artificial intelligence, to evaluate current, and forecast future, degradation. The outcomes will lead to improvements in Network Rail’s capability to proactively manage these important assets.
Deadline : 4 August 2024
(35) PhD Degree – Fully Funded
PhD position summary/title: The Social Life of the War Relic: D-Day Objects at the Intersection of Personal, Family, and National Cultures of Remembrance
Aims and Focus: This project will examine how specific artefacts in the internationally renowned collections of The D-Day Story have functioned as ‘vectors’ of memory operating at the intersection of personal, family, and national cultures of remembrance. Focusing on a select number of artefacts, and with expert support from a joint Loughborough University-The D-Day Story supervisory team, the project’s first focus is to trace object specific ‘biographies’ indicative of D-Day’s rich and still largely overlooked social history. The project’s second key objective turns attention to how such analysis might be proactively ‘used’ to broaden and diversify the story of D-Day told at the museum. This objective will necessarily involve the Doctoral researcher working closely with the supervisory team to support the museum’s exhibition plans and curatorial strategy. The end result will break new ground in the interdisciplinary field of memory studies and it will innovate – within the context of a modern military museum – new curatorial strategies and approaches.
Deadline : 31st July 2024
(36) PhD Degree – Fully Funded
PhD position summary/title: Transporting hydrogen at scale in a cost effective, efficient and safe way
This project will focus on enhancement of existing and adoption of new materials and processes to suit the needs of a hydrogen pipeline network. This involves a number of areas including understanding the needs and demands of a pipeline network and how it operates in order to balance supply and demand, the limitations of existing materials and processes for pipelines and how they are impacted by hydrogen, the possibilities of new materials and processes to improve existing practices, the technical readiness of new materials and processes, the qualification process and advancement of new applications, demonstration of value increases for safety, sustainability, reliability, availability and cost. The key is optimising the balance between these metrics to benefit the end consumer. The project should consider the applicability of novel materials, composites and self-healing capabilities.
Deadline : Open until filled
(37) PhD Degree – Fully Funded
PhD position summary/title: Virtual tools for powertrain NVH refinement
The Dynamics Research Group in the Wolfson School of Mechanical, Electrical and Manufacturing Engineering is working closely with Ferrari S.p.A, aiming to develop novel approaches, methods, and virtual tools to study and refine the NVH attributes of automotive powertrains.
The project is suitable for students who have either an engineering or a physics background. Regular reporting and interactions with the automotive OEM are also requirements. Visits to the Headquarters in Italy are part of the training and dissemination activities.
By completing the PhD programme, you will become a future leader in NVH technology of automotive powertrains, having collaborated with one of the most prominent companies worldwide.
Deadline : 28 July 2024
About Loughborough University, Leicestershire, England –Official Website
Loughborough University (abbreviated as Lough or Lboro for post-nominals) is a public research university in the market town of Loughborough, Leicestershire, England. It has been a university since 1966, but it dates back to 1909, when Loughborough Technical Institute began with a focus on skills directly applicable in the wider world. In March 2013, the university announced it had bought the former broadcast centre at the Queen Elizabeth Olympic Park as a second campus. The annual income of the institution for 2022–23 was £369.1 million, of which £48.3 million was from research grants and contracts, with an expenditure of £339.1 million.
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