48 structural-engineering-"https:" "https:" "https:" "https:" "https:" "https:" "https:" "UCL" "UCL" positions at Newcastle University in United Kingdom
Sort by
Refine Your Search
-
drives, advanced control techniques for next-generation drives, and innovative approaches to reducing passive components in electric drive systems. Your research will contribute to cutting-edge technology
-
research, industry, and medical engineering. Methodology The overall aim of the project is to design and evaluate processes that integrate formal requirements and formal specification-based automated test
-
particular level. This role is fixed term for 24 months. Where to apply Website https://newcastle-university.contactrh.com/jobs/13808/43931361/en_GB Requirements Additional Information Work Location(s) Number
-
Criteria The award is available to UK and international applicants. You should have, or expect to achieve, at least a 2:1 Honours degree, or international equivalent, in Electrical Engineering or closely
-
fluids within the porous structure of sedimentary rocks. These processes are critical for both conventional open-loop geothermal developments and engineered systems, including closed-loop configurations
-
stormwater) are a sustainable solution, but their long-term performance often suffers due to generic design approaches that overlook plant ecology and the interaction with soil structure development. This PhD
-
approaches that overlook plant ecology and the interaction with soil structure development. This PhD project will transform rain garden design by linking plant traits to hydrological and ecological outcomes
-
accountably. This is where you come in. Your mission Working at the intersection of privacy research and real-world engineering, you'll design and build a computational stewardship engine—an autonomous agent
-
systems with "self-diagnosis" and "self-healing" capabilities. By integrating federated learning, graph neural networks, and blockchain technology, we will develop a framework that moves beyond static
-
-methanol from abundant, high-moisture biomass waste feedstocks. The research will focus on hydrothermal processing. This technology has the potential to disrupt the biofuels market by eliminating the energy