Authors: Pushpa N. Rathie, Prabhata K. Swamee, André L. B. Cavalcante, Luan Carlos de S. M. Ozelim

Abstract:

Implicit equations play a crucial role in Engineering. Based on this importance, several techniques have been applied to solve this particular class of equations. When it comes to practical applications, in general, iterative procedures are taken into account. On the other hand, with the improvement of computers, other numerical methods have been developed to provide a more straightforward methodology of solution. Analytical exact approaches seem to have been continuously neglected due to the difficulty inherent in their application; notwithstanding, they are indispensable to validate numerical routines. Lagrange-s Inversion Theorem is a simple mathematical tool which has proved to be widely applicable to engineering problems. In short, it provides the solution to implicit equations by means of an infinite series. To show the validity of this method, the tree-parameter infiltration equation is, for the first time, analytically and exactly solved. After manipulating these series, closed-form solutions are presented as H-functions.

Keywords: Green-Ampt Equation, Lagrange's Inversion Theorem, Talsma-Parlange Equation, Three-Parameter Infiltration Equation

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1072714

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1829

References:

[1] E. T. Whittaker , G. N. Watson, A Course of Modern Analysis. 4th Edition, Cambridge Univ. Press, Cambridge, U.K.,1990; pg. 133.
[2] E. Artin, The Gamma Function. Rinehart and Winston, NY: Holt, New York, 1964.
[3] P. K. Swamee, P. N. Rathie, L. C. de S. M. Ozelim, "Explict equations for infiltration," Journal of Hydrology, 426-427, 2012, pp. 151-153.
[4] R. E. Smith, J. Y. Parlange, "A parameter-efficient hydrologic infiltration model," Water Resour. Res., 14 (3), 1977, pp. 533-538.
[5] W. H. Green, G. A. Ampt, 1911. "Studies in soil physics I: the flow of air and water through soils," J. Agric. Sci., 4 (1), 1911, pp. 1-24.
[6] T. Talsma, J. Y. Parlange, "One-dimensional vertical infiltration," Aust. J. Soil Res., 10 (2), 1972, pp. 143-150.
[7] J. Y. Parlange, I. Lisle, R. D. Braddock, R. E. Smith, "The three parameter infiltration equation," Soil Sci., 133 (6), 1982, pp. 337-341.
[8] J. Y. Parlange, D. A. Barry, R. Haverkamp, "Explicit infiltration equations and the Lambert W-function," Adv. Water Resour., 25 (8-12), 2002, pp. 1119-1124.
[9] L. C. de S. M. Ozelim, A. L. B. Cavalcante, P. K. Swamee, P. N. Rathie, "Métodos Numéricos Iterativos Aplicados a Equa├º├Áes de Infiltra├º├úo," In: VII Simp├│sio Brasileiro de Solos N├úo Saturados, 2011, Piren├│polis. Anais do VII Simp├│sio Brasileiro de Solos N├úo Saturados. Goi├ónia, Editora Kelps, v. 1, 2011, p. 209-213.
[10] A. M. Mathai, R. K. Saxena, H. J. Haubold, The H-Function: Theory and Applications. Springer, New York, 2010, pp. 2-23.