Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- Cranfield University
- ;
- ; Swansea University
- ; The University of Manchester
- University of Nottingham
- University of Cambridge
- AALTO UNIVERSITY
- University of Sheffield
- ; Cranfield University
- ; University of Birmingham
- ; University of Bristol
- ; University of Southampton
- ; University of Surrey
- Imperial College London
- ; Brunel University London
- ; City St George’s, University of London
- ; Manchester Metropolitan University
- ; The University of Edinburgh
- ; University of Cambridge
- ; University of Sheffield
- Abertay University
- ; Coventry University Group
- ; Durham University
- ; Loughborough University
- ; Newcastle University
- ; University of Greenwich
- ; University of Oxford
- ; University of Strathclyde
- ; University of Sussex
- Aston University
- Nature Careers
- UNIVERSITY OF SOUTHAMPTON
- UNIVERSITY OF VIENNA
- University of Manchester
- University of Newcastle
- University of Oxford
- 26 more »
- « less
-
Field
-
million in losses each year, with landslides during earthquakes leading to over NZ$1 billion in damage for a single event. While landslide susceptibility modelling is an essential tool in risk management
-
research team. Good knowledge and experience in heat and mass transfer is essential and proficiency in the use of Computational Fluid Dynamics will be considered an advantage. The student will benefit from
-
overcomes the geographic limitations of conventional systems, enabling global scalability and accessibility. Using advanced computational fluid dynamics (CFD) approaches, the project is aimed at advancing
-
and deterministic AI outputs is critical. This requires robust design principles and architectural changes to reduce variability and integrate smoothly with industrial control systems. Enhancing
-
increasingly important. The aim of the project is to explore the collaborative dynamics of agents within eCPS, with a specific focus on aligning their behaviours towards achieving sustainability goals. Cranfield
-
of tomorrow and creating novel solutions to major global challenges. Our community is made up of 13 000 students, 400 professors and close to 4 500 other faculty and staff working on our dynamic campus in Espoo
-
load emulation, surface tribology and lubricants, contact mechanics or dynamical phenomena. This is an opportunity to work within a world-class multidisciplinary team within the Engineering Systems
-
, curious individual to join an exciting PhD. This opportunity is generously funded by John Crane Ltd, a world-renowned engineering technology leader. Why This PhD? Impact Clean Energy's Future: Develop next
-
, usability, and insight into leakage dynamics across diverse constructions. Research Objectives The project is structured around three synergistic work packages: Descriptive Analytics: You will conduct a
-
Build Test Solutions Ltd (BTS). This is a fantastic opportunity to work towards a PhD whilst working with both academia and industry. We are looking for a self-motivated student, with an inquiring mind