Muhammad Jeri At Thabari
- ORCID iD
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0000-0002-0754-2684
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- Conference Paper
- open access
Numerical simulations of propane pool fires with the EDC / finite rate chemistry approach using global reaction mechanisms
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- Conference Paper
- C1
- open access
Towards predictive engineering-type simulations of upward flame spread in SBI scenarios
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- Journal Article
- A1
- open access
Assessment of the EDC/finite rate chemistry approach towards predicting extinction in a turbulent buoyant diffusion flame
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- Journal Article
- A1
- open access
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
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- Journal Article
- A1
- open access
Development of a novel subgrid combustion model for buoyant turbulent diffusion flames
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- Journal Article
- A1
- open access
Flame ignition and extinction modelling using infinitely fast chemistry in large eddy simulations of fire-related reacting flows
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- Journal Article
- A1
- open access
Numerical study of the impact of the EDC formulation and finite-rate chemistry mechanisms in CFD simulations of fire plumes
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- Conference Paper
- C3
- open access
Preliminary study of chemistry solvers with focus on ignition in the context of turbulent buoyancy-driven reacting flows
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Exploratory comparative study of the impact of simplified finite-rate chemistry in LES-EDC simulations of the UMD line burner