My research is multidisciplinary and covers engineering science, computational science, applied physics and applied mathematics.

Research

I have worked in several scientific and technical areas:

• Fluid Dynamics
• Aerodynamics and gas dynamics
• Transition, Turbulence and Turbulent Mixing
• Acoustics
• Heat and Mass Transfer
• Nanoscience
• Fluid/Solid interfaces
• Computational Fluid Dynamics
• Computational Science
• Multiscale processes
• Carbon capture

I have applied my work in several industries and worked with practitioners in different sectors

• Aerospace
• Defence
• Medical
• Nuclear (Fusion)
• Oil and Gas
• Energy
• Environment
• Automotive
• High-performance computing

Selective recent and past research items are shown below.

Recent

Airborne virus transmission

Swarm of drones

Flow and sound at high-speed flying objects

Other Research

High-Order CFD Methods

Molecular Dynamics

Multiscale and Multiphysics Scientific Computations

Compressible Turbulent Mixing

Unsteady separated flows Large Eddy Simulation

Applied CFD around/inside complex geometries

Turbulence

Supersonic and Hypersonic Flows

Heat transfer

Nanotechnology – Gas Filtration

Micro and Nanofluidics

Nanoscience of Fluid/Material Interface

Carbon Nanotubes & Nanofluids

Shock and ultrasound waves through membranes

Solid/Fluid, Solid/Solid Interaction & Moving Interfaces