Numerical solution of the spatially distributed population balance equation describing the hydrodynamics of interacting liquid–liquid dispersions
- 30 June 2004
- journal article
- Published by Elsevier in Chemical Engineering Science
- Vol. 59 (12) , 2567-2592
- https://doi.org/10.1016/j.ces.2004.03.005
Abstract
No abstract availableKeywords
This publication has 70 references indexed in Scilit:
- Solution of the droplet breakage equation for interacting liquid–liquid dispersions: a conservative discretization approachChemical Engineering Science, 2004
- Reactive Extraction In Stirred Columns – A ReviewChemical Engineering & Technology, 2003
- Optimal moving and fixed grids for the solution of discretized population balances in batch and continuous systems: droplet breakageChemical Engineering Science, 2003
- Simulation of the population balances for liquid–liquid systems in a nonideal stirred tank. Part 2—parameter fitting and the use of the multiblock model for dense dispersionsChemical Engineering Science, 2002
- Modelling activated sludge flocculation using population balancesPowder Technology, 2002
- Solution of population balance equations with a new combined Lax-Wendroff/Crank-Nicholson methodChemical Engineering Science, 2001
- Mathematical modeling and steady-state analysis of a scheibel extraction columnThe Canadian Journal of Chemical Engineering, 1995
- Single drop break-up in a Kühni columnThe Chemical Engineering Journal, 1990
- Dynamic and steady-state simulation of hydrodynamics and mass transfer in liquid—liquid extraction columnChemical Engineering Science, 1989
- Simulation of hydrodynamics and mass transfer of disks and rings pulsed columnIndustrial & Engineering Chemistry Research, 1988