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- Journal Article
- A1
- open access
Transported scalar PDF calculations of a swirling bluff body flame ('SM1') with a reaction diffusion manifold
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- Journal Article
- A1
- open access
A priori investigation of PDF-modeling assumptions for a turbulent swirling bluff body flame ('SM1')
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- Conference Paper
- C1
- open access
Hybrid Rans/PDF calculations of a swirling bluff body flame ('SM1'): influence of the mixing model
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Transported PDF calculations of a methanol spray flame with tabulated reaction-diffusion manifold (REDIM) chemistry
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Hybrid RANS/PDF calculations of a swirling bluff body flame (SM1)
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Hybrid RANS/PDF calculations of a swirling bluff body flame (SM1)
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- Conference Paper
- C3
- open access
Hybrid RANS/PDF calculations of a swirling bluff body flame (SM1)
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- Journal Article
- A1
- open access
Generalised langevin model in correspondence with a chosen standard scalar-flux second-moment closure
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- Conference Paper
- C1
- open access
Hybrid RANS/PDF calculations of a swirling bluff body flame (SM1)
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Velocity-scalar correlation modelling in turbulent non-premixed flames: standard second-moment closure and joint velocity-scalar transported PDF modelling [shortened version]
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Velocity-scalar correlation modelling in turbulent non-premixed flames: standard second-moment closure and joint velocity-scalar transported PDF modelling [full paper]
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Hybrid RANS/PDF calculations of a swirling bluff body flame ('SM1') [full paper]
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- Conference Paper
- C1
- open access
Hybrid RANS/PDF calculations of sydney swirling flames
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- Conference Paper
- C1
- open access
Joint scalar PDF simulations of a bluff-body stabilised flame with the REDIM approach
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Differential scalar-flux models from the joint velocity-scalar transported PDF
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Joint Scalar versus Joint Velocity-Scalar PDF Simulations of Bluff-Body Stabilized Flames with REDIM
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Hybrid Rans/PDF calculations of a swirling bluff body flame (Sydney 'SM1')
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Application of the REDIM approach in joint scalar PDF simulations of bluff-body stabilised flames
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Elimination of fast modes in the coupled process of chemistry and diffusion in turbulent nonpremixed flames: an application of the REDIM approach
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Hybrid RANS/PDF calculations of a swirling bluff body flame ('SM1')
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PDF simulations of bluff-body stabilised flames using reaction-diffusion-manifolds (REDIM)
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RANS/PDF simulations of Sydney swirling flames
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RANS/PDF Simulations of Sydney Swirling Flames
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RANS/PDF Simulations of Sydney Swirling Flames
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Joint Scalar and Velocity-Scalar PDF Modelling of a Bluff-Body Stabilised Flame
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Joint Scalar VS. Joint Velocity-Scalar PDF Modelling of Bluff-Body Stabilised Flames with REDIM
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Interaction between chemistry and micro-mixing modeling in transported pdf simulations of turbulent non-premixed flames
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Impact of turbulent flow and mean mixture fraction results on mixing model behavior in transported scalar PDF simulations of turbulent non-premixed bluff body flames
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Scalar PDF and velocity-scalar PDF modelling of the bluff-body stabilised flame HM1 using ILDM
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Comparison of scalar PDF and velocity-scalar PDF modelling of flame HM1
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Turbulence-chemistry-radiation interaction in flames
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Role of the Closure of the Reynolds Flux in Transported PDF Calculations of Non-Premixed Turbulent Flames
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Comparative study of micromixing models in transported scalar PDF simulations of turbulent nonpremixed bluff body flames
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Comparison of transported scalar PDF and velocity-scalar PDF approaches to 'Delft flame III'
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Study of the performance of three micromixing models in transported scalar PDFsimulations of a piloted jet diffusion flame ("Delft Flame III")
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Chemistry and Micro-Mixing Modeling in Transported PDF Simulations of Turbulent Non-Premixed Flames
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Transported scalar PDF simulations of 'Delft Flame III': comparison of micromixing models
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Comparison of different chemistry and mixing models in a transported scalar PDF approach for a bluff body flame
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Application of Micromixing Models in the Transported Scalar PDF and Velocity-Scalar PDF Approaches to 'Delft Flame III"
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Study of the influence of the combustion model on transported PDF results for a turbulent non-premixed bluff-body flame
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Flow and mixing fields for transported scalar PDF simulations of a piloted jet diffusion flame ('Delft Flame III')
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Application of Micromixing Models in the Transported Scalar PDF and Velocity-Scalar PDF Approaches to 'Delft Flame III'
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Combination of Transported Scalar PDF with Non-Linear Two-Equation Turbulence Modelling: Application to a Piloted Jet Diffusion Flame
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Investigation of the Effect and Behaviour of Different Turbulent Mixing Models on Transported Scalar PDF Simulation Results for Delft Flame III
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Application of the Transported Scalar PDF Approach with Local Time Stepping to Piloted Jet Diffusion Flames
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Particle Method vs. Stochastic Field Method for PDF Modeling of a Non-Premixed Jet Flame
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Combination of a transported scalar PDF method with a non-linear k-epsilon model - Application to piloted jet diffusion flames