Fire Modelling and Simulations

Development of high-fedality models to predict fire phenonmena and material characterisation are core research strengths of the group. This page records the collection of our publication series on Fire Modelling and Simulations.

Compartment Fire Modelling

This series comprises multiscale compartmental fire modelling studies using large-eddy simulation (LES) techniques. Works include our developed LES FIRE FORTRAN code, ANSYS, FDS, etc.

A Large-Eddy Simulation study on the effect of fuel configuration and pan distance towards chemical species for under-ventilated compartment fire scenario

Q Chen, ACY Yuen, TBY Chen, RF Cao, H Liu, GH Yeoh
International Journal of Heat and Mass Transfer 184, 122306, 2022

Fire Protection Systems

Advanced studies on fire protection systems via numerical simulations, experimental studies and other analytical methods.

A novel thermal management system for battery packs in hybrid electrical vehicles utilising waste heat recovery

H Liu, C Wen, ACY Yuen, Y Han, SCP Cheung, S Kook, GH Yeoh
International Journal of Heat and Mass Transfer 195, 123199, 2022

Molecular Dynamics (MD)

Molecular Dynamics (MD) simulations coupled with the Reactive Force Field (ReaxFF) can be used to gain a more in-depth knowledge of the pyrolysis breakdown of a material.

Pyrolysis and combustion characterisation of HDPE/APP composites via molecular dynamics and CFD simulations

IMDC Cordeiro, TBY Chen, ACY Yuen, C Wang, QN Chan, J Zhang, ...
Journal of Analytical and Applied Pyrolysis 163, 105499, 2022