Application of Lagrangian probability density function approach to a turbulent jet diffusion flame
- ,
- W. P. Jones
- ,
- University of Sussex,
- Imperial College London
Research Output: Contribution to journal Article Peer-review
Abstract
The application of the transported probability density function method in conjunction with a Lagrangian particle technique to predict turbulent reacting flows is presented in this paper. The calculation method is based upon the modelled form of the evolution equation for the joint pdf of the species mass fractions. The velocity field and the turbulence properties are obtained via a conventional gradient diffusion model (k-ε). Molecular mixing is modelled using LMSE and coalescence dispersion mixing models. Chemical reaction is described by the four-step global hydrocarbon mechanism of Jones and Lindstedt. Stochastic particle methods are used to solve the multi-dimensional pdf equations. In this work, a Lagrangian particle technique is adopted in which the pdf is represented by an ensemble of particles whose positions are tracked as they move through the solution domain.
Publication Information
Output type
Research Output: Contribution to journal Article Peer-review
Original language
EnglishPages from-to (Number of pages)
Pages N9Journal (Volume, Issue Number)
Journal of Turbulence (Volume 11)Publication milestones
- Accepted/In press - 28/02/2010
- Published - 06/04/2010
Publication status
Published - 06/04/2010
External Publication IDs
- Scopus: 77955722369
