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Year 2013, Volume: 7 Issue: 3, 90 - 98, 01.11.2013

Abstract

Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling

Year 2013, Volume: 7 Issue: 3, 90 - 98, 01.11.2013

Abstract

Water flow simulation in porous medium such as soil is an important topic in several branches of hydrology, soil science and agricultural engineering. In the present study, numerical results from a dynamic pore network model were used to determine a macroscopic relationship between capillary pressure and fluid saturations. Then using the resulted relationship from pore network modeling and solving the partial differential Richards' equation by finite difference scheme (PNMCRE), water movement in the soil has been simulated. Also, soil water movement was investigated by laboratory experiments on sandy soil. The performance of PNMCRE was evaluated by comparing the simulated wetting fronts with both of the observed patterns and those simulated by HUDRUS software package. Statistical analysis showed that PNMCRE model with minimum errors and high correlation coefficients for all discharge rates and in time intervals had a better agreement with observed patterns in comparison with HYDRUS 2D

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Details

Other ID JA38NN88PT
Journal Section Research Article
Authors

Saeed Samadıanfard This is me

Ali Ashraf Sadraddını This is me

Amir Hosein Nazemı This is me

Publication Date November 1, 2013
Published in Issue Year 2013 Volume: 7 Issue: 3

Cite

APA Samadıanfard, S., Sadraddını, A. A., & Nazemı, A. H. (2013). Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling. Journal of Applied Biological Sciences, 7(3), 90-98.
AMA Samadıanfard S, Sadraddını AA, Nazemı AH. Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling. J.appl.biol.sci. November 2013;7(3):90-98.
Chicago Samadıanfard, Saeed, Ali Ashraf Sadraddını, and Amir Hosein Nazemı. “Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling”. Journal of Applied Biological Sciences 7, no. 3 (November 2013): 90-98.
EndNote Samadıanfard S, Sadraddını AA, Nazemı AH (November 1, 2013) Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling. Journal of Applied Biological Sciences 7 3 90–98.
IEEE S. Samadıanfard, A. A. Sadraddını, and A. H. Nazemı, “Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling”, J.appl.biol.sci., vol. 7, no. 3, pp. 90–98, 2013.
ISNAD Samadıanfard, Saeed et al. “Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling”. Journal of Applied Biological Sciences 7/3 (November 2013), 90-98.
JAMA Samadıanfard S, Sadraddını AA, Nazemı AH. Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling. J.appl.biol.sci. 2013;7:90–98.
MLA Samadıanfard, Saeed et al. “Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling”. Journal of Applied Biological Sciences, vol. 7, no. 3, 2013, pp. 90-98.
Vancouver Samadıanfard S, Sadraddını AA, Nazemı AH. Numerical and Experimental Analyses of a Sandy Soil Water Movement under a Point Source Using Dynamic Pore Network Modeling. J.appl.biol.sci. 2013;7(3):90-8.