Upscaling nonreactive solute transport
Autor: | Llerar Meza, Gerónimo |
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Jazyk: | angličtina |
Rok vydání: | 2009 |
Předmět: |
Upscaling
Solute transport Non-fickian Mass transfer Memory function Block equivalent properties Advection-dispersion Residence times Breakthrough curves INGENIERIA HIDRAULICA 250605 - Hidrogeología 250804 - Aguas subterráneas 3308 - Ingeniería y tecnología del medio ambiente 630502 - Elaboración de modelos |
Zdroj: | Riunet. |
Druh dokumentu: | Doctoral Thesis |
Popis: | This thesis focuses on solute transport upscaling. Upscaling of solute transport is usually required to obtain computationally efficient numerical models in many field applications such as, remediation of aquifers, environmental risk to groundwater resources or the design of underground repositories of nuclear waste. The non-Fickian behavior observed in the field, and manifested by peaked concentration profiles with pronounced tailing, has questioned the use of the classical advection-dispersion equation to simulate solute transport at field scale using numerical models with discretizations that cannot capture the field heterogeneity. In this context, we have investigated the use of the advection-dispersion equation with mass transfer as a tool for upscaling solute transport in a general numerical modeling framework. Solute transport by groundwater is very much affected by the presence of high and low water velocity zones, where the contaminant can be channelized or stagnant. These contrasting water velocity zones disappear in the upscaled model as soon as the scale of discretization is larger that the size of these zones. We propose, for the modeling solute transport at large scales, a phenomenological model based on the concept of memory functions, which are used to represent the unresolved processes taking place within each homogenized block in the numerical models. We propose a new method to estimate equivalent blocks, for which transport and mass transfer parameters have to be provided. The new upscaling technique consists in replacing each heterogeneous block by a homogeneous one in which the parameters associated to a memory functions are used to represent the unresolved mass exchange between highly mobile and less mobile zones occurring within the block. Flow upscaling is based on the Simple Laplacian with skin, whereas transport upscaling is based in the estimation of macrodispersion and mass transfer parameters as a result of the interpretation of the r Llerar Meza, G. (2009). Upscaling nonreactive solute transport [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/5848 |
Databáze: | Networked Digital Library of Theses & Dissertations |
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