Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
- Computer Science
- Engineering
- Economics
- Medical Sciences
- Science
- Biology
- Materials Science
- Chemistry
- Mathematics
- Business
- Earth Sciences
- Education
- Environment
- Arts and Literature
- Electrical Engineering
- Psychology
- Humanities
- Linguistics
- Social Sciences
- Sports and Recreation
- Design
- Law
- Philosophy
- Physics
- 14 more »
- « less
-
condensed matter physics • Ability to learn and develop skills in analytical computation, theoretical modelling and numerical simulations, in particular the numerical solution of partial differential
-
probe flavin chemistry using a powerful combination of approaches: the design of biomimetic flavin models (lumiflavin-based systems), detailed mechanistic studies in solution, and state-of-the-art gas
-
kinetics, and advanced diagnostics of gas-phase and surface processes. The research ranges from fundamental studies of reaction mechanisms to applications in sustainable energy, catalysis, and plasma
-
? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Call funded under the AURIGA project (“Unveiling the RIddles of GAs–liquid fluid
-
systems, induce instabilities and influence optical and thermal signatures. The nature of the metal/alloy used determines the combustion regime involved (gas-phase or surface heterogeneous), and therefore
-
parameters, optimising these and various process conditions to enhance the overall performance of the gas turbine employing specific indicators. Used with a complementary CFD modelling approach, the research
-
areas. Qualification Level: Bachelor degree (NQ: 6). Experience required: Experience in areas related to the scope of the project, and experience in gas separation processes and catalytic reactions
-
Your Job: This PhD project focuses on modelling and simulating future gas grids, exploring transformation pathways, and developing cross-sectoral simulation frameworks to support informed decision
-
that optimising the power commands sent to gas turbine engines is effective at safety improving the sustainability of flight routes. We want to take this into reality by creating compelling demonstrations
-
resulting agricultural greenhouse gas emission trajectories, shaped by producer behaviour; 3) Engage with modelling community and livestock producers aimed at improving the representation of livestock systems