CRITICAL-ASSESSMENT OF THE OPERATOR-SPLITTING TECHNIQUE IN SOLVING THE ADVECTION-DISPERSION REACTION EQUATION .1. FIRST-ORDER REACTION

被引：45

作者：

KALUARACHCHI, JJ

MORSHED, J

机构：

[1] College of Engineering, Utah Water Research Laboratory, Utah State University, Logan

来源：

ADVANCES IN WATER RESOURCES | 1995年 / 18卷 / 02期

关键词：

D O I：

10.1016/0309-1708(95)00001-Y

中图分类号：

TV21 [水资源调查与水利规划];

学科分类号：

081501 ;

摘要：

Operator-splitting technique (OST) is a common mathematical approach used in the solution of the advection-dispersion-reaction equation (ADRE), especially in the presence of biological decay, where the scales of transport and biological decay are far apart. The OST introduces a time-lag between the advection-dispersion and reaction stages by splitting the ADRE causing a breakdown of the physics of the problem, thus limiting its applicability. In this work, the applicability of the operator splitting technique is studied in parts. This first manuscript addresses the critical limitations of the operator-splitting technique as related to first-order decay, and the second manuscript extends the work to include coupled transport between hydrocarbon and oxygen with Monod kinetics describing biological decay. The critical assessment is performed to address the errors associated with the time-lag due to splitting. The assessment is based on mass balance errors, deviations of concentration prediction and sensitivities of concentration deviations. The results show that the splitting introduces an inherent error independent of the discretization errors. This inherent error increases with reaction rate and time-lag, and the overall errors can be reduced by using the alternate operator-splitting technique suggested by previous researchers.

引用

页码：89 / 100

页数：12

共 18 条

[1]

Borden, Bedient, Transport of dissolved hydrocarbons influenced by oxygen-limited biodegradation: 1. Theoretical development, Water Resour. Res., 22, 13, pp. 1973-1982, (1986)

[2]

Celia, Kindred, Hererra, Contaminant transport and biodegradation: 1. A numerical model for reactive transport in porous media, Water Resour. Res., 25, 6, pp. 1141-1148, (1989)

[3]

Chiang, Dawson, Wheeler, Modeling of In-situ Biorestoration of Organic Compounds in Groundwater, Research Report UH/MD-68, (1991)

[4]

Chiang, Wheeler, Bedient, A modified method of characteristics technique and mixed finite elements method for simulation of groundwater solute transport, Water Resour. Res., 25, 7, pp. 1541-1549, (1989)

[5]

Douglas, Russell, Numerical methods for convection-dominated diffusion problems based on combining the methods of characteristics with finite element or finite difference procedures, SIAM Journal on Numerical Analysis, 19, 5, pp. 871-885, (1982)

[6]

Kindred, Celia, Contaminant transport and biodegration: 2. Conceptual model and test simulations, Water Resour. Res., 25, 6, pp. 1149-1159, (1989)

[7]

Kinzelbach, Schaefer, Herzer, Numerical modeling of natural and enhanced denitrification processes in aquifers, Water Resour. Res., 27, 6, pp. 1123-1135, (1991)

[8]

LeVeque, Oliger, Numerical methods based on additive splittings for hyperbolic partial differential equations, Mathematics of Computation, 40, 162, pp. 469-497, (1983)

[9]

Miller, Rabideau, Development of split-operator, Petrov-Galerkin methods to simulate transport and diffusion problems, Water Resour. Res., 29, 7, pp. 2227-2240, (1993)

[10]

Morshed, Critical Assessment of the Operator-Splitting Technique in Solving the Advection-Dispersion-Reaction Problems, MS Thesis, (1994)

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