Title of article
Implementation of the population balance equation in CFD codes for modelling soot formation in turbulent
Author/Authors
Zucca، Alessandro نويسنده , , Marchisio، Daniele L. نويسنده , , Barresi، Antonello A. نويسنده , , Fox، Rodney O. نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2006
Pages
-86
From page
87
To page
0
Abstract
The simulation of soot formation in turbulent diffusion flames is carried out within a CFD code, by coupling kinetics and fluid dynamics computations with the solution of the population balance equation via the Direct Quadrature Method of Moments, a novel and efficient approach based on a quadrature approximation of the size distribution of soot particles. A turbulent non-premixed ethylene-air flame is used as the test case for validation of the model. Simplified kinetic expressions are employed for modelling nucleation, molecular growth and oxidation of particles, along with a Brownian aggregation kernel. A recently proposed approach for modelling the evolution of fractal dimension is used with a monovariate population balance to predict the morphological properties of aggregates.
Keywords
Population balance , Computational fluid dynamics , Particle formation , Agglomeration , Combustion , Soot
Journal title
CHEMICAL ENGINEERING SCIENCE
Serial Year
2006
Journal title
CHEMICAL ENGINEERING SCIENCE
Record number
101763
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