期刊
JOURNAL OF CONTAMINANT HYDROLOGY
卷 120-21, 期 -, 页码 222-236出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.jconhyd.2010.06.002
关键词
Reactive transport; Multicontinuum models; Non-local transport; Non-local reaction; Matrix diffusion
资金
- French National Research Agency [ANR-08-PCO2-004-01]
- EU [227286]
The correct characterization of the effective reactive transport dynamics is an important issue for modeling reactive transport on the Darcy scale, specifically in situations in which reactions are localized, that is when different reactions occur in different portions of the porous medium. Under such conditions the conventional approach of homogenizing only the porous medium chemistry is not appropriate. We consider here reactive transport in a porous medium that is characterized by mass transfer between a mobile and a distribution of immobile regions. Chemical and physical heterogeneities are reflected by distributions of kinetic reaction rate constants and residence times in the immobile zones. We derive an effective reactive transport equation for the mobile solute that is characterized by non-local physical mass transfer and reaction terms. Specifically, chemical heterogeneity is upscaled in terms of a reactive memory function that integrates both chemical and physical heterogeneity. Mass transfer limitations due to physical heterogeneity yield effective kinetic rate coefficients that can be much smaller than the volumetric average of the local scale coefficients. These results help to explain and quantify the often reported discrepancy between observed field reaction rate constants and the ones obtained under well mixed laboratory conditions. Furthermore, these results indicate that transport under physical and chemical heterogeneity cannot be upscaled separately. (C) 2010 Elsevier B.V. All rights reserved.
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