Comparison of numerical schemes for solving a spherical particle diffusion equation
- 1 May 1990
- journal article
- Published by American Geophysical Union (AGU) in Water Resources Research
- Vol. 26 (5) , 843-853
- https://doi.org/10.1029/wr026i005p00843
Abstract
A new robust iterative numerical scheme was developed for a nonlinear diffusive model which described sorption dynamics in spherical particle suspensions. The numerical scheme had been applied to finite difference and finite element models which showed rapid convergence and stability under wide ranges of partition coefficients. Comparisons were made with explicit finite difference and orthogonal collocation methods. The diffusive model assumes complete mixing in the bulk aqueous solution and considers intraaggregate transport within the suspended particles. The effect of particle size distribution of suspensions was also included in the model. Sorption was described using both linear and nonlinear isotherms.This publication has 17 references indexed in Scilit:
- Simulation of solute transport in aggregated mediaAIChE Journal, 1989
- Numerical modeling of sorption kinetics of organic compounds to soil and sediment particlesWater Resources Research, 1988
- Sorption kinetics of hydrophobic organic compounds to natural sediments and soilsEnvironmental Science & Technology, 1986
- Sorption dynamics of hydrophobic pollutants in sediment suspensionsEnvironmental Toxicology and Chemistry, 1985
- Effect of particle size distribution on adsorption kinetics in stirred batch systemsChemical Engineering Science, 1983
- EXPERIMENTAL AND THEORETICAL ASPECTS OF SOLUTE DIFFUSION IN SPHERICAL AND NONSPHERICAL AGGREGATESSoil Science, 1982
- Experimental and Mathematical Description of Nonadsorbed Solute Transfer by Diffusion in Spherical AggregatesSoil Science Society of America Journal, 1980
- Using models to simulate the movement of contaminants through groundwater flow systemsC R C Critical Reviews in Environmental Control, 1979
- Kinetics of Phosphate Adsorption and Desorption by Lake SedimentsSoil Science Society of America Journal, 1974
- The effect of crystallite shape and size distribution on diffusion measurements in molecular sievesChemical Engineering Science, 1971