The application of Flamelet Generated Manifolds in partailly-premixed flames

W.J.S. Ramaekers, B.A. Albrecht, J.A. Oijen, van, L.P.H. Goey, de, R.L.G.M. Eggels

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Abstract

To reduce harmful emissions numerical models are developed to simulate combustion processes in engineering applications. In this paper a model for partially-premixed combustion used in Reynolds Averaged Navier-Stokes Simulations (RANS) is presented. A flamelet approach combined with a Probability Density Function (PDF) closure method for the chemical source term is used to describe turbulence-chemistry interaction. The laminar flamelet database is generated using the Flamelet Generated Manifold (FGM) chemistry reduction technique; it is assumed that mixing and chemistry are fully described by mixture fraction and a reaction progress variable respectively. A look-up database for turbulent combustion is constructed by PDF-averaging the laminar amelet database. For the PDF a B-function is assumed. In this paper the FGM/PDF model as implemented in FLUENT is described and validated for a well documented turbulent jet flame (Sandia Flame D). Results are presented and compared with a reference model and measurements.
Original languageEnglish
Title of host publicationProceedings of the Fluent Benelux User Group Meeting, 6-7 October 2005, Wavre, Belgium
Place of PublicationBelgium, Château de Limelette
Pages3D-
Publication statusPublished - 2005

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