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15 PhD Degree-Fully Funded at Cranfield University, England

PhD Degree-Fully Funded at Cranfield University, England
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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: An aquatic ecological tug-of-war: who wins when conservation and recreation clash in lakes?- PhD

Global efforts and policies highlight the importance of aquatic ecosystems due to their species richness, unique biodiversity, and vital ecosystem services. However, these ecosystems are increasingly under pressure from human activities, including nutrient loading and landscape changes. Balancing the conservation of these ecosystems with the diverse demands of human use, particularly for recreational purposes, poses a significant challenge.

We are offering an exciting PhD opportunity to examine the interactions between human-driven management and ecological outcomes in lakes on designated sites. This project will address fundamental questions about how recreational activities and water quality priorities influence the ecological trajectories and coverage of aquatic plant communities. The research will provide insights into the socio-ecological constructs of ecosystem health and how human values affect the resilience and natural progression of these communities.

The project will involve a combination of fieldwork and laboratory analyses. The successful candidate will engage extensively with a multidisciplinary team to develop their knowledge and skills and will collaborate with stakeholders (e.g., local conservation practitioners and sailing clubs) to implement and disseminate the research findings. Funding is available to support travel throughout the project to meet collaborators, as well as opportunities to attend and present findings at international conferences (e.g., IWA Congress).

Deadline : 26 Mar 2025

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(02) PhD Degree – Fully Funded

PhD position summary/title: Building natural resilience to floods and drought using green infrastructure – PhD

There are around 30,000,000 gardens in the UK with an estimated combined area of over 4,300km2, equivalent to 20% the area of Wales. Gardens and other domestic outdoor spaces represent a major natural resource that is under highly diverse management and whose contributions to groundwater recharge and storm runoff reduction are highly uncertain and under-valued.  Furthermore, garden water use is strongly seasonal with high demands typically during periods of low supply. Research in this field has the potential to contribute towards alleviating current (seasonal) water stresses experienced by the water sector, while maintaining expected levels of quality in gardens. 
 
This exciting PhD, in collaboration with the Royal Horticultural Society (RHS), will aim to use a combination of data analysis, monitoring and modelling to develop an improved understanding of the water balance of domestic gardens and evaluate how the ‘green infrastructure’ benefits of gardens can be improved to increase society’s resilience to floods and droughts. 
 
The PhD has the following outline objectives:
  • To design, install and monitor site-based measurements of the components of garden water balances;
  • To parameterise, calibrate and validate an appropriate numerical model to simulate the hydrological behaviour of gardens; 
  • To combine data analysis, modelling and remote sensing approaches with land-use classification information to develop an up-scaled spatial analysis of the contribution of UK domestic gardens to the nation’s water balance;
  • To provide recommendations on how domestic gardeners can manage rainwater in their gardens to optimise rainwater storage and resilience to floods and droughts.

Deadline : 26 Mar 2025

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(03) PhD Degree – Fully Funded

PhD position summary/title: Design optimization of recoilless disruptor de-armers enabling precise neutralization of Improvised Explosive Devices (IEDs) and Unexploded Bombs (UXBs)

This PhD is designed to investigate a lighter, next generation alternative material to reduce the weight of unloaded stainless-steel disrupters and help improve control and stability performance of the same.

This project is designed to address a key business challenge for the Industrial Partner, Richmond Defence Systems, who have world-class expertise in the design / manufacture of products / solutions for counter IED and EOD applications.

It is anticipated that the PhD would be conducted via a unique, inter-linked and exciting combination of practical experiments and simulations involving scaled firings, use of compressed gas-guns to characterise materials, computational modelling, and microstructural analysis. Facilities across Cranfield’s key sites (Shrivenham, Cranfield and COTEC) would be employed as required.

Deadline : 02 Apr 2025

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(04) PhD Degree – Fully Funded

PhD position summary/title: Developing ontologies for digital engineering and manufacturing PhD

This PhD aims to develop a common ontology based methodology to address interoperability issues both in the context of new and legacy assets. A breakdown of the objectives is provided below:

  • Objective 1 is focusing on mapping the current data types, structures, and interoperability challenges to develop a detailed as-is model. This will be developed through interviews, and cross case analysis to capture trends,.
  • Objective 2 is measuring and assessing interoperability levels by means of designing and applying a new process to identify metrics for interoperability measurement, and also define thresholds for a minimum required interoperability level (MRIL). The output will be the interoperability of both quantitative and qualitative indicator metrics and the process for their measurement.
  • Objective 3 makes use of the previous output to develop an ontological architecture that will enable high-level interoperability. It consists of building competency questions, taxonomies, relationships, axioms, and the connection to upper levels of ontologies (i.e., BFO) using tools such as ontology modelling language (OML), and protégé, and Neo4j to build and visualise knowledge graph. This will form the common way to develop ontologies, which will be scalable, and adaptive to variations systems over time.
  • Objective 4 is a verification assessment and validation through BAE based use cases. Through the use cases, the developed processes, metrics and ontology framework will be validated. Validation includes, on the one hand, the unit, the functional, the compatibility and the security test, and on the other hand, the Findability, Accessibility, Interoperability, and Reuse (FAIR) assessment. Tools such as Shapes Constraint Language SHACL, a reference model for interoperability (NCT3TA), and interoperability standards (e.g. HISO 100xx, ISO/IEC 11179-xx) will be employed for efficient and effective framework development. The main outcomes encompass feedback and reflection on the ontology performance, scalability, reusability and enhanced FAIR evaluation. 

Deadline : 26 Mar 2025

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(05) PhD Degree – Fully Funded

PhD position summary/title: Development of origami-paper eDNA sensors for real-time surveillance of freshwater ecosystems – PhD

There is an urgent need for novel freshwater quality monitoring solutions to help mitigate the risks that contaminants pose to water security, human wellbeing, and biodiversity. This funded PhD studentship will work with conservation charities and citizen scientists to develop and validate innovative origami-paper eDNA sensors for the rapid detection of chemical and microbial contaminants in river water. 
 
The successful candidate will work collaboratively within a dynamic team, utilizing cutting-edge technology to create user-friendly sensors for deployment by citizen scientists. The project will involve co-designing the sensors with public stakeholders to ensure usability and accuracy, as well as conducting field tests to validate their effectiveness. Additionally, the research will explore the economic viability of these sensors to enhance real-time data collection and improve monitoring practices, and the social factors that influence their uptake.
 
This studentship offers a unique opportunity to engage in ground-breaking research with practical applications, promoting community involvement in detecting chemical and biological contaminants and monitoring biodiversity. The successful candidate will benefit from access to state-of-the-art facilities, along with support from leading experts in Advanced Sensor technology and Environmental Assessment Facilities at Cranfield University.

Deadline : 26 Mar 2025

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(06) PhD Degree – Fully Funded

PhD position summary/title: Experimental and Numerical Study of Parameters Affecting the Wake Dynamics of a Simplified Car: Effects of Roughness – Turbulence – Yaw Angle

The PhD student will test these two hypotheses:

  • There is a strong effect of the vehicle shape on the wake flow and aerodynamic drag,
  • There is a direct link between the topology of wake flow and the dispersion of pollutants.

To test these two hypotheses, the PhD student will:

  • Investigate the effects of different parameters on the wake flow such as yaw angle, vehicle shape (realistic shapes), inflow turbulence, and ground roughness,
  • Compare results of Ahmed bodies (simplified) and DrivAer models (realistic),
  • Correlate experiments and simulations to come up with the best methodology.

Deadline : 03 Sep 2025

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(07) PhD Degree – Fully Funded

PhD position summary/title: Exploring the legitimacy of river health monitoring – PhD

Monitoring provides us with vital insights about how we use rivers and our impacts on them. They are also crucial tools in river governance, providing policy-makers and regulators with evidence to design improvement strategies, benchmark progress, and take enforcement action against infractions. 
 
As rivers in many parts of the world face increasing stresses due to climate change and other human impacts, interest in river health has grown, pushing monitoring programmes increasingly into the spotlight. At the same time, advancements in sensor technology and deployment mean that much larger ranges and volumes of river health data are becoming available. But questions over which parameters are monitored, how they are measured (and by whom), and the interpretation and transparency of the evidence generated, can significantly shape the legitimacy of monitoring schemes. 
 
Drawing on a political ecology approach, the aim of this project is to explore the processes through which river monitoring programmes can become legitimised (and de-legitimised) among different communities, how the evidence is mobilised to construct different meanings of river health, and the implications this can have for river governance. The research will be associated with an existing ESRC research project, and will use case studies in the UK, Norway and Canada, with potential for travel to study sites for field work. 

Deadline : 26 Mar 2025

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(08) PhD Degree – Fully Funded

PhD position summary/title: Extreme learning to handle ‘Big Data’ PhD

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.

The integrating should enable to guarantee certain properties of the learned functions, while keep leveraging the strength of the data-driven modelling. Most of, if not all, the traditional statistical methods are not suitable for big data due to their certain characteristics: heterogeneity, statistical biases, noise accumulations, spurious correlation, and incidental endogeneity.  Therefore, big data demands new statistical thinking and methods. As data size increases, each feature and parameter also becomes highly correlated. Then, their relations get highly complicated too and hidden patterns of big data might not be possible to be captured by traditional modelling approaches.

Deadline : Open until filled

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(09) PhD Degree – Fully Funded

PhD position summary/title: The effects of high energy propagation in poor weather

The studentship will focus on 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 you to acquire expertise in electro-magnetic propagation and sensing with electro-optical (EO), infrared (IR) and radar systems.

The main objectives of this project are:

  • Investigation of the effects of high energy propagation in poor weather conditions through modelling and simulations,
  • Research into propagation effects as a function of frequency and sensing modality (EO, IR and radars),
  • Investigating the use of pulsed and CW techniques to maximise energy transfer against an intended object at a distance.

Deadline : 30 Jul 2025

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(10) PhD Degree – Fully Funded

PhD position summary/title: Open Radio Access Network (ORAN) for Distributed Edge Computing Orchestration in 6G PhD

6G will bring new levels of native AI inside the telecommunication network, orchestrating resources for both the telecommunication network and for the end-user application areas. Cranfield is part of the national testbed for 6G, researching in the following areas of interest: 

  1. Real-time specification of 6G telecommunication and edge computing services using Large Language Models (LLMs).
  2. Orchestrating AI/ML pipelines in 6G.
  3. Developing certification and checking processes for code inside ORAN 6G.

The research will be a combination of software engineering, radio experimentation and validation, and machine learning.

Deadline : 30 Apr 2025

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(11) PhD Degree – Fully Funded

PhD position summary/title: PhD in water chemistry: maximising PFAS forever chemical removal from drinking water

This amazing fully funded PhD opportunity comes with an enhanced stipend of £24,000 per annum and will deliver important outcomes for drinking water quality in the UK. Through determining the physico-chemical properties that influence the removal of an important group of micropollutants from drinking water – the so called forever ‘PFAS’ chemicals –  the project will develop resilient strategies for improved operation of water treatment systems. The successful candidate will benefit from being part of a cohort of 12 students on the EPSRC Centre for Doctoral Training in Water Infrastructure and Resilience (WIRe), a world leading collaboration between three UK universities. The WIRe programme includes bespoke training in technical and personal skills development, and provides opportunities for industrial placements, overseas travel and access to world leading experimental facilities. More details about the WIRe CDT programme can be found at www.cdtwire.com (PhDs under this scheme are for a duration of four years full time).

Deadline : 19 Mar 2025

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(12) PhD Degree – Fully Funded

PhD position summary/title: Quantifying reciprocal ecological flows across riparian zones – PhD

Riparian zones – vibrant transitional spaces between land and water – are vital hotspots of ecological productivity and exchange. These dynamic systems influence the flow of energy, nutrients, and organisms between terrestrial and aquatic environments, fuelling the trophic networks that sustain biodiversity and ecosystem multifunctionality.

This exciting PhD project will quantify and model the reciprocal ecological flows between riparian zones and freshwater systems, focusing on wetlands and ponds across contrasting socio-ecological contexts (e.g. agricultural, urban and semi-natural). The research will push the boundaries of current science by examining how riparian habitats influence freshwater trophic networks while simultaneously considering how aquatic processes shape riparian functioning. A deeper understanding of how riparian zones drive two-way connections has the potential to transform how we design and restore landscapes to co-benefit land and water.

Deadline : 26 Mar 2025

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(13) PhD Degree – Fully Funded

PhD position summary/title: Socio-ecological synergies and trade-offs in river rewilding – PhD

Rivers and floodplains should be hotspots of biodiversity in the landscape, because river processes naturally create a dynamic mosaic of terrestrial and aquatic habitats. However, land drainage, intensive land use (urban and agriculture), and river engineering have separated rivers from their floodplains, causing a loss of aquatic and wetland habitats. To counter this decline, the growing rewilding movement has sought to reconnect rivers to their floodplains, through the work of beavers and stage-zero schemes. 

In this study, a PhD researcher will investigate how social, economic, political and environmental factors influence the adoption of river-floodplain rewilding approaches. The project will combine social science and ecological research to address three objectives: (i) identify and detail the drivers, enablers, and barriers to rewilding in practice; (ii) determine how the greater uncertainty of natural process driven change in rewilding approaches influences expectations for target ecological communities, restoration objective setting and monitoring plans; and (iii) assess the potential for rewilding to support increased socio-ecological resilience and adaptation to climate change. 

Deadline : 26 Mar 2025

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(14) PhD Degree – Fully Funded

PhD position summary/title: Tackling algae and algae-derived challenges in drinking water – PhD

Occurrences of freshwater harmful algal blooms are increasing globally due to increased nutrient input in water bodies and changing climate patterns. In the UK and worldwide, the presence of algal blooms has even been detected on water sources that have historically not suffered from this challenge. Reservoirs are particularly vulnerable and are linked to the detection of cyanotoxins and associated taste and odour issues. Furthermore, little information is known about the contribution of algal organic matter to the formation of disinfection by-products. 

Ozone is a well-established process in drinking water treatment, which has been widely used to mitigate algae and taste and odour risks. However, the contribution of conventional ozone systems to the electrical energy consumption of drinking water production can reach up to 24%. To overcome this challenge, new, cost-effective technology such as microbubble and nanobubble ozone systems have been developed in recent years and are now available. The aim of the project is to investigate the benefits of using ozone systems using microbubbles and nanobubbles to mitigate algae-derived risks in drinking water and the impact of treatment on water quality. 

Deadline : 26 Mar 2025

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(15) PhD Degree – Fully Funded

PhD position summary/title: Water-neutral and zero-waste oligonucleotides manufacturing for a sustainable pharmaceutical industry – PhD

This exciting fully funded PhD is developed with the global pharmaceutical manufacturer GSK and has an enhanced stipend of £24,000 per annum. The project will define the scientific principles to unlock the recovery of resources during the manufacturing steps of oligonucleotides and will identify the possibilities for the pharmaceutical industry to move towards a water-neutral and zero-waste sector.

Deadline : 19 Mar 2025

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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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