Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
- Computer Science
- Engineering
- Medical Sciences
- Biology
- Economics
- Materials Science
- Chemistry
- Mathematics
- Electrical Engineering
- Science
- Arts and Literature
- Business
- Humanities
- Psychology
- Linguistics
- Physics
- Education
- Philosophy
- Law
- Earth Sciences
- Environment
- Social Sciences
- Sports and Recreation
- 13 more »
- « less
-
”. This exciting opportunity involves leading the development of advanced data-driven mathematical and computational models to suppress turbulence in pipe flows, contributing to pressing engineering efforts toward
-
a mixture of experimental and computation work. A current key focus of the group is development of new multiscale modelling approaches, coupled with data driven modelling techniques, to support
-
industry experts, gaining valuable skills at the interface of hydrogeology, environmental engineering, and computational modelling. Research Objectives will focus on: (a) Enhancing CoronaScreen by
-
Cohomology of arithmetic lattices in GL(2) over the Hamiltonians School of Mathematical and Physical Sciences PhD Research Project Directly Funded Students Worldwide Dr Haluk Sengun Application
-
Sequestration potential of neo-fossils for global chemical industry School of Chemical, Materials and Biological Engineering PhD Research Project Directly Funded UK/EU Students Dr Fanran Meng, Prof
-
or upper second class honours degree or significant research experience. Candidates must have a first or upper second class honors degree or significant research experience. A background in computer science
-
to explore key technologies and solutions that will support UK industry to reach net zero. https://greenindustrialfutures.site.hw.ac.uk/the-programme/training-programme/ Project: The green industrial futures
-
diseases, combining biomechanical experiments, micro-Computed Tomography imaging, Digital Volume Correlation, and Nanoindentation. The position is funded as part of the project “ChildBone: A novel digital
-
planning, student intake forecasting, tuition fee setting and new programme financial viability assessments. This involves collaborating with other professional services teams, analysing complex information
-
and other highly technical problems. Collaborate with colleagues from multiple teams to plan workload and resources to fit project timescales. Research into novel technology to advance knowledge