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Turbulence-chemistry interactions in piloted premixed flames

The objective of the project is to improve current capabilities to compute the structure of turbulent premixed flames where the interactions between turbulence and chemistry are hig more...

Supervisor(s): Masri, Assaad (Professor)

Characteristics of oxygen-enriched combustion

This project involves studying the characteristics of oxygen-enriched combustion more...

Supervisor(s): Masri, Assaad (Professor)

Surface modification of biomaterials for orthopaedic applications

This project will establish that our novel modified calcium silicate materials have enhanced bioactivity and osseointegration properties for coatings onto orthopaedic implants. more...

Supervisor(s): Zreiqat, Hala (Professor)

Quenching of radicals and micro-mixing in micro-combustion

This project will investigate the dominant issue of radical quenching on solid surfaces in a micro-combustor as well as micro-mixing with the objective of enabling flame stabilisati more...

Supervisor(s): Masri, Assaad (Professor)

Scaffolds for skeletal tissue regeneration

This project will modify calcium silicate ceramic scaffolds with divalent cations to improve their mechanical, osteoinductive and osteoconductive properties for bone regeneration. more...

Supervisor(s): Zreiqat, Hala (Professor)

Strategies for Building Bone

This project will investigate the use of biological agents in stimulating bone growth and inhibiting bone resorption. more...

Supervisor(s): Zreiqat, Hala (Professor)

Polymer Crystallization

Using advanced molecular simulation techniques the project seeks to establish the relationship between molecular structure and complex interplay of thermodynamic and processing para more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

High performance computational nanotechnology

This project seeks to develop these techniques for molecular simulations of liquid and solid states using parallel computational techniques. The developed algorithms will be used on more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

Nano-Rheology and Nano-Tribology: Atomistic Simulation of Boundary Lubrication

 This research seeks to find practical ways to reduce friction in boundary lubrication regime by a novel virtual nano-tribometer/ nano-rheometer. more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

Tribological properties of biopolymers in human joints

In this project we will use advanced molecular simulation techniques to model the lubrication process in synovial joints to shed light on these puzzles. more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)