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Project
Systematic study of extinction and re-ignition modelling through finite rate chemistry in LES simulations of buoyant flames
Information
Project Team
Organisations
Outputs and Outcomes
Publications
Assessment of the EDC/finite rate chemistry approach towards predicting extinction in a turbulent buoyant diffusion flame
Muhammad Jeri At Thabari
Boris Kruljevic
Georgios Maragkos
Alexander Snegirev
Bart Merci
A1
Journal Article
in
PROCEEDINGS OF THE COMBUSTION INSTITUTE
2024
Exploratory study of the impact of the turbulence model on flame extinction with an EDM and EDC/finite-rate approach for a line burner configuration
Muhammad Jeri At Thabari
Georgios Maragkos
Bart Merci
A1
Journal Article
in
FLOW TURBULENCE AND COMBUSTION
2024
Development of a novel subgrid combustion model for buoyant turbulent diffusion flames
Alexander Snegirev
Georgios Maragkos
Muhammad Jeri At Thabari
Bart Merci
A1
Journal Article
in
FIRE SAFETY JOURNAL
2023
A fully dynamic approach for turbulence and combustion modelling : systematic assessment study on fire plumes with variable heat release rate
Georgios Maragkos
Bart Merci
C1
Conference
2023
Sub-grid scale turbulent micro-mixing with infinitely fast chemistry in the context of fire modelling
Georgios Maragkos
Bart Merci
A1
Journal Article
in
FIRE SAFETY JOURNAL
2023
Flame ignition and extinction modelling using infinitely fast chemistry in large eddy simulations of fire-related reacting flows
Georgios Maragkos
Alexander Snegirev
Muhammad Jeri At Thabari
Bart Merci
A1
Journal Article
in
FIRE SAFETY JOURNAL
2023
Numerical study of the impact of the EDC formulation and finite-rate chemistry mechanisms in CFD simulations of fire plumes
Muhammad Jeri At Thabari
Georgios Maragkos
Alexander Snegirev
Bart Merci
A1
Journal Article
in
FIRE SAFETY JOURNAL
2023
Preliminary study of chemistry solvers with focus on ignition in the context of turbulent buoyancy-driven reacting flows
Jeri At Thabari
Georgios Maragkos
Bart Merci
C3
Conference
2022
Exploratory comparative study of the impact of simplified finite-rate chemistry in LES-EDC simulations of the UMD line burner
Jeri At Thabari
Georgios Maragkos
Bart Merci
C1
Conference
2022