Paper Info
Title
An improved and efficient finite volume scheme for bivariate aggregation population balance equation.
Abstract
In this work, a finite volume scheme for the numerical solution of bivariate pure aggregation population balance equations on non-uniform meshes is derived. The new method has a simple mathematical structure and it provides high accuracy with respect to the number density distribution as well as different moments. The method relies on weights to conserve the total mass of the system. The new method is compared to a recently developed finite volume scheme by Forestier-Coste and Mancini (2012) for some selected benchmark problems. It is shown that the proposed method is not only computationally more efficient but also more accurate than the method by Forestier-Coste and Mancini (2012).
Year
DOI
Venue
2016
10.1016/j.cam.2016.04.037
J. Computational Applied Mathematics
Keywords
Field
DocType
Aggregation,Particles,Finite volume scheme,Non-uniform grids,Moments
Population,Mathematical optimization,Population balance equation,Polygon mesh,Mathematical structure,Mathematical analysis,Number density,Bivariate analysis,Finite volume method,Mathematics
Journal
Volume
Issue
ISSN
308
C
0377-0427
Citations 
PageRank 
References 
2
0.44
5
Authors
4
Name
Order
Citations
PageRank
Mehakpreet Singh151.31
Jitendra Kumar2409.73
A. Bück321.46
Evangelos Tsotsas451.92