MODELING OF SOLUTE AND WATER TRANSPORT IN THE SOIL
This study has been motivated by attempts to manage optimally the root zone of agricultural soils as well as by concerns about soil and groundwater pollution. A finite difference model to solve the one-dimensional water transfer equation is presented. The results obtained with this numerical model were compared with those calculated using an analytical solution, which considers a constant flow at the soil surface, and with those obtained using an optimum solution proposed in this study, in which a constant soil water content is considered to occur at the soil surface. Furthermore, a numerical scheme to solve the convection-dispersion equation is presented so as to simulate the transport of solute that does not interact with the soil particles. The numerical solution used to describe water and solute transport is also compared with experimental results reported by others authors. It was found that the simulated results obtained by the numerical solution generally are in good agreement with those using the approaches referred in this study, and with the experimental data utilized. Therefore, this numerical solution can be used for practical purposes.
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Colegio de Postgraduados
1998
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oai:ojs.pkp.sfu.ca:article15692020-05-14T06:12:00Z MODELING OF SOLUTE AND WATER TRANSPORT IN THE SOIL MODELACION DEL TRANSPORTE DE AGUA Y DE SOLUTOS EN EL SUELO Zataráin-Mendoza, Felipe Fuentes-Ruíz, Carlos Palacios-Vélez, Oscar L. Mercado-Escalante, José R. Brambila-Paz, Fernando García-Villanueva, Nahúm H. Water solute soil simulation model finite difference Agua solutos suelo modelo de simulación diferencias finitas This study has been motivated by attempts to manage optimally the root zone of agricultural soils as well as by concerns about soil and groundwater pollution. A finite difference model to solve the one-dimensional water transfer equation is presented. The results obtained with this numerical model were compared with those calculated using an analytical solution, which considers a constant flow at the soil surface, and with those obtained using an optimum solution proposed in this study, in which a constant soil water content is considered to occur at the soil surface. Furthermore, a numerical scheme to solve the convection-dispersion equation is presented so as to simulate the transport of solute that does not interact with the soil particles. The numerical solution used to describe water and solute transport is also compared with experimental results reported by others authors. It was found that the simulated results obtained by the numerical solution generally are in good agreement with those using the approaches referred in this study, and with the experimental data utilized. Therefore, this numerical solution can be used for practical purposes. El presente estudio fue motivado por la importancia que revisten las transferencias de agua y de sustancias químicas en las capas superficiales del suelo en relación con el manejo de los suelos agrícolas y la contaminación del suelo y del agua subterránea. Se presenta un modelo en diferencias finitas para la solución de la ecuación unidimensional de transferencia de agua en el suelo. Los resultados de la simulación numérica se comparan con los de una solución analítica para el caso de un flujo constante en la superficie del suelo y con los de una solución optimal propuesta en este trabajo para el caso de una humedad constante en la superficie del suelo. Se presenta también una solución numérica de la ecuación de convección-dispersión para describir el transporte de los solutos que no interactúan con las partículas del suelo. Los resultados de la simulación numérica para el transporte de agua y solutos se comparan con resultados experimentales de otros autores. En general, los resultados obtenidos con la simulación numérica están en buen acuerdo con los obtenidos mediante las soluciones referidas y con los resultados experimentales utilizados. Por lo tanto, esta solución numérica puede ser usada para propósitos prácticos. Colegio de Postgraduados 1998-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Artículo revisado por pares application/pdf https://www.agrociencia-colpos.org/index.php/agrociencia/article/view/1569 Agrociencia; Vol. 32 No. 4 (1998): 1998-oct-dic; 373-383 Agrociencia; Vol. 32 Núm. 4 (1998): 1998-oct-dic; 373-383 2521-9766 1405-3195 spa https://www.agrociencia-colpos.org/index.php/agrociencia/article/view/1569/1569 |
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| author |
Zataráin-Mendoza, Felipe Fuentes-Ruíz, Carlos Palacios-Vélez, Oscar L. Mercado-Escalante, José R. Brambila-Paz, Fernando García-Villanueva, Nahúm H. |
| spellingShingle |
Zataráin-Mendoza, Felipe Fuentes-Ruíz, Carlos Palacios-Vélez, Oscar L. Mercado-Escalante, José R. Brambila-Paz, Fernando García-Villanueva, Nahúm H. MODELING OF SOLUTE AND WATER TRANSPORT IN THE SOIL |
| author_facet |
Zataráin-Mendoza, Felipe Fuentes-Ruíz, Carlos Palacios-Vélez, Oscar L. Mercado-Escalante, José R. Brambila-Paz, Fernando García-Villanueva, Nahúm H. |
| author_sort |
Zataráin-Mendoza, Felipe |
| title |
MODELING OF SOLUTE AND WATER TRANSPORT IN THE SOIL |
| title_short |
MODELING OF SOLUTE AND WATER TRANSPORT IN THE SOIL |
| title_full |
MODELING OF SOLUTE AND WATER TRANSPORT IN THE SOIL |
| title_fullStr |
MODELING OF SOLUTE AND WATER TRANSPORT IN THE SOIL |
| title_full_unstemmed |
MODELING OF SOLUTE AND WATER TRANSPORT IN THE SOIL |
| title_sort |
modeling of solute and water transport in the soil |
| description |
This study has been motivated by attempts to manage optimally the root zone of agricultural soils as well as by concerns about soil and groundwater pollution. A
finite difference model to solve the one-dimensional water transfer equation is presented. The results obtained with this numerical model were compared with those calculated using an
analytical solution, which considers a constant flow at the soil surface, and with those obtained using an optimum solution proposed in this study, in which a constant soil water content is
considered to occur at the soil surface. Furthermore, a numerical scheme to solve the convection-dispersion equation is presented so as to simulate the transport of solute that does not
interact with the soil particles. The numerical solution used to describe water and solute transport is also compared with experimental results reported by others authors. It was found that
the simulated results obtained by the numerical solution generally are in good agreement with those using the approaches referred in this study, and with the experimental data utilized.
Therefore, this numerical solution can be used for practical purposes. |
| publisher |
Colegio de Postgraduados |
| publishDate |
1998 |
| url |
https://www.agrociencia-colpos.org/index.php/agrociencia/article/view/1569 |
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