Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- Cranfield University
- University of Exeter
- Newcastle University
- University of Birmingham
- University of East Anglia
- University of East Anglia;
- University of Nottingham
- The University of Edinburgh
- The University of Manchester
- University of Cambridge
- Manchester Metropolitan University;
- University of Exeter;
- University of Oxford
- ;
- Loughborough University;
- The University of Manchester;
- UCL
- UNIVERSITY OF VIENNA
- University of Birmingham;
- University of Manchester
- University of Sheffield
- Aston University;
- Edinburgh Napier University;
- King's College London
- Lancaster University
- Swansea University
- University of Bradford;
- University of Bristol;
- University of Essex
- University of Glasgow
- University of Liverpool
- University of Newcastle
- University of Plymouth
- University of Plymouth;
- University of Sheffield;
- University of Surrey;
- University of Sussex
- University of Warwick
- 28 more »
- « less
-
Field
-
frameworks that can maximise the performance, efficiency, and emissions reduction potential of such new fuels through intelligent design, modelling, and experimental validation. Research Objectives Investigate
-
respond to environmental stress and how people connect with nature. Their configuration, connectivity and interaction with surrounding land cover determine the extent to which they buffer heat, dilute
-
inconsistent. This is often because current approaches focus on adding lots of microbial diversity rather than identifying the specific microbial functions and network interactions that truly drive plant
-
. The studentship is funded by the Leverhulme Trust through the Connected Waters Leverhulme Doctoral Programme, which is supporting new research on human-environment interactions in freshwater ecosystems. There is an
-
The project: The focus of this project is on the novel and exciting concept of multi-rotor wind turbines; a new design paradigm for wind energy, that is attracting an increasing amount of attention
-
, rebound effects, or synergies (Ekim, Mattsson and Bernardo, 2023; Massié and Belaïd, 2024). Capturing such interactions is crucial for designing effective retrofits. Assessing housing decarbonisation
-
to understand how multiple restoration schemes interact across entire estuaries. There may also be a fieldwork component to validate model outputs and explore real-world restoration dynamics. Working within
-
chlorination to convert metallic impurities into volatile chlorides. The process efficiency, however, depends on a complex interplay of particle-scale interactions and particle/solid body interactions. Current
-
and rigorous assessment design, the integration of digital and information systems perspectives where appropriate, and meaningful student support. The postholder will also contribute to programme
-
to interact with GE Vernova’s engineering staff and will have the opportunity to work, for part of the time, in GE Vernova’s main HVDC design office, based in Stafford, UK. Here the candidate will have the