Flow and mixing fields for transported scalar PDF simulations of a piloted jet diffusion flame (`Delft Flame III')
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Publication:977347
DOI10.1007/s10494-005-4872-1zbMath1190.76170OpenAlexW2063638541MaRDI QIDQ977347
Bart Merci, Bertrand Naud, Dirk Roekaerts
Publication date: 21 June 2010
Published in: Flow, Turbulence and Combustion (Search for Journal in Brave)
Full work available at URL: http://resolver.tudelft.nl/uuid:bcf829e6-8271-4c5d-8afa-062fc13acef9
Related Items (7)
Joint-scalar transported PDF modelling of soot in a turbulent non-premixed natural gas flame ⋮ Analysis of extinction in a non-premixed turbulent flame using large eddy simulation and the chemical explosion mode analysis ⋮ Conditional moment closure/large eddy simulation of the Delft-III natural gas non-premixed jet flame ⋮ Numerical simulation of Delft-jet-in-hot-coflow (DJHC) flames using the eddy dissipation concept model for turbulence-chemistry interaction ⋮ Flow and mixing fields for transported scalar PDF simulations of a piloted jet diffusion flame (`Delft Flame III') ⋮ Joint scalar versus joint velocity-scalar PDF simulations of bluff-body stabilized flames with REDIM ⋮ PDF modeling and simulation of premixed turbulent combustion
Cites Work
- Flow and mixing fields for transported scalar PDF simulations of a piloted jet diffusion flame (`Delft Flame III')
- Closure of the transport equation for the probability density function of turbulent scalar fields
- Heat transfer predictions with a cubic \(k-\varepsilon\) model for axisymmetric turbulent jets impinging onto a flat plate
- Predictive capabilities of an improved cubic \(k-\varepsilon\) model for inert steady flows
- A new \(k\)-\(\varepsilon\) eddy viscosity model for high Reynolds number turbulent flows
- Probability density function approach for a turbulent axisymmetric heated jet. Centerline evolution
- Monte Carlo PDF modelling of a turbulent natural-gas diffusion flame
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