Explicit Numerial Iterative Methods Applied to the Three-Parameter Infiltration Equation
Finding explicit solutions to the partial differential equations governing the infiltration phenomenon tend to be a challenging issue. On account of such complexity, researchers have proposed algebraic equations to model this phenomenon. This paper deals with the solution of the general three-parame...
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| Veröffentlicht in: | Soils & rocks 2013-01, Vol.36 (1), p.129-133 |
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| container_title | Soils & rocks |
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| creator | Cavalcante, André L. B. Ozelim, Luan C.S.M. Swamee, Prabhata K. Rathie, Pushpa N. |
| description | Finding explicit solutions to the partial differential equations governing the infiltration phenomenon tend to be a challenging issue. On account of such complexity, researchers have proposed algebraic equations to model this phenomenon. This paper deals with the solution of the general three-parameter infiltration equation, which is an implicit equation corresponding to the interpolation between the Green-Ampt and Talsma-Parlange infiltration models. By means of the Householders method, the cumulative infiltration is obtained by a rapidly converging iterative procedure. The results are further manipulated in order to obtain the infiltration rate explicitly. The effect of variables involved on the solution is also discussed. A case study is included to demonstrate the use of the proposed algorithm. The formulas proposed provide easy-to-use equations which enable calculations on the fly while considering practical applications. |
| doi_str_mv | 10.28927/SR.361129 |
| format | Article |
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| title | Explicit Numerial Iterative Methods Applied to the Three-Parameter Infiltration Equation |
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