Overview
Advanced heat transfer, sustainability, instrumentation and experimental optical diagnostics
- Covid-19 research on virus transmissivity through aerosols and splatter
- Ammonia as a sustainable, green energy vector
- Nanoscale heat transfer - nanofluids
- Non Equilibrium Molecular Dynamic Simulations
- Image recognition and data analysis
- Heat transfer in high heat fluxes (nuclear fusion/fission reactors)
- Boiling heat transfer (pool and forced boiling processes)
- Heat transfer in bubbly structures and chocolate
- Advanced optical diagnostics, instrumentation and experimentation
- Spread of the influenza virus in air - experimental studies
- Sprays and atomisation processes
Collaborators
Korean Advanced Institute of Science and Technology (KAIST)Centre for Flexible and Thin Thermal SuperconductorsAdvanced Heat Lab, ERASMUS Euro Asian Sustainable Energy Development placement fellowship to South Korea, Advanced Heat Transfer, 2016 - 2017
EUROfusion, Nanofluids as an advanced coolant for High Heat Flux nuclear fusion Applications, 2016 - 2018
Culham Center for Fusion Energy (CCFE), Imperial College London, Mechanical Engineering Department, Nanofluids as coolants for high heat flux nuclear fusion applications, 2009
Culham Center for Fusion Energy (CCFE), EPSRC CASE, Heat transfer in nanofluids with an emphasis on nuclear fusion applications, 2009