Sort by
Refine Your Search
-
scattering with computer modelling such as molecular dynamics simulations and AI-assisted data mining. The new technical capabilities will help bridge the current gap in biocide development, i.e., to link
-
partnership with the Royce Institute and Cummins, you will study the microstructure of nickel-based alloys used in turbine wheels — vital components for hydrogen-ready engines and future power technologies
-
device will be determined by the material used to make the crystal. In this project we will use electronic structure calculations guided by chemical understanding to discover new thorium compounds
-
training, and interactions among autonomous entities can lead to vulnerabilities. These concerns are amplified in decentralized AI and multi-agent systems, when multiple parties (e.g., human or agent) might
-
transition, with an increasing need to deploy large-scale offshore wind turbines in harsh operational environments. As these systems grow in complexity and power rating, ensuring the reliability of generator
-
discipline Strong quantitative and analytical skills Ability to work independently and manage time effectively Good written and verbal communication skills Motivation to address sustainability and climate
-
. This limits our ability to design next-generation insulation materials for higher voltage applications across different sectors. A fundamental reason for the stalled progress in electrical treeing research is
-
ability to work independently and collaboratively. To apply, please contact the supervisors Dr Bissett - mark.bissett@manchester.ac.uk and Prof Kinloch - ian.kinloch@manchester.ac.uk . Please include
-
learning algorithm to develop an ability to choose what main data pattern/structure to preserve? This PhD project will approach this question by developing modelling strategies and pipelines to enable human
-
– both CO2 and non-CO2 (including contrails) – of various technologies, including electric aircraft (battery- and fuel cell-powered), hybrid-electric aircraft, next-generation propulsion systems