Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Employer
- Cranfield University
- ;
- University of Nottingham
- ; University of Nottingham
- University of Manchester
- ; The University of Manchester
- ; University of Birmingham
- ; University of Bristol
- AALTO UNIVERSITY
- Harper Adams University
- University of Newcastle
- ; Swansea University
- ; University of Southampton
- University of Sheffield
- ; Brunel University London
- ; Cranfield University
- ; The University of Edinburgh
- ; University of Leeds
- Imperial College London
- ; Aston University
- ; Loughborough University
- ; Newcastle University
- ; University of Limerick
- ; University of Oxford
- ; University of Reading
- ; University of Surrey
- ; University of Warwick
- Abertay University
- National Institute for Bioprocessing Research and Training (NIBRT)
- Nature Careers
- THE HONG KONG POLYTECHNIC UNIVERSITY
- University of Leicester
- 22 more »
- « less
-
Field
-
work on the INSTINCT-MB programme, which brings together teams based at Newcastle University, The Institute of Cancer Research and University College London. The programme will generate a wide range of
-
state-of-the-art high heat flux testing, simulating the extreme environments of fusion reactors. Harness advanced computational tools to model complex particle-material interactions and predict material
-
, with minimal computational cost. By developing an advanced reduced order modelling framework, this project will empower engineers and designers to achieve more with less—delivering high-impact decisions
-
on performance and safety, for example, through the efficient computation of Lyapunov and barrier functions, forward and backward reachable sets, optimal value functions etc. The broad goal is to build upon recent
-
environmental impacts of digital activities. You will lead projects modelling the energy usage of different computing equipment (personal computers, servers, High-Performance Computing infrastructure
-
transport, high-performance mechanical seals are essential. These seals prevent gas leakage by maintaining a sub-micron-thin layer of hydrogen between a rotating ceramic face and a stationary face. The
-
thermodynamically. Performance design optimization and advanced performance simulation methods will be investigated, and corresponding computer software will be developed. The research will contribute
-
operating filters. Quantify operational performance including headloss recovery, filtrate turbidity, biological stability and lifecycle carbon—using high-resolution sensor data and life-cycle assessment tools
-
performance will be assessed using finite element analysis and experimental work. Additionally, life cycle assessment will be performed to quantify environmental and economic impacts. This project is intended
-
highly efficient operation. TBCs are crucial to ensure the safe and high-performance operation of such critical parts under extreme temperatures and pressures; however, external contaminants (e.g. Calcium