Authors: S.G.Venkatesh, S.K.Ayyaswamy, G.Hariharan

Abstract:

In this paper, we present a framework to determine Haar solutions of Bratu-type equations that are widely applicable in fuel ignition of the combustion theory and heat transfer. The method is proposed by applying Haar series for the highest derivatives and integrate the series. Several examples are given to confirm the efficiency and the accuracy of the proposed algorithm. The results show that the proposed way is quite reasonable when compared to exact solution.

Keywords: Haar wavelet method, Bratu's problem, boundary value problems, initial value problems, adomain decomposition method.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1059475

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References:

[1] U.M. Ascher, R. Matheij, R.D. Russell, Numerical solution of boundary value problems for ordinary differential equations, SIAM, Philadelphia, PA, 1995.
[2] J.P. Boyd, Chebyshev polynomial expansions for simultaneous approximation of two branches of a function with application to the onedimensional Bratu equation, Applied Mathematics and Computation 142 (2003) 189-200.
[3] J.P. Boyd, An analytical and numerical study of the two-dimensional Bratu equation, Journal of Scientific Computing 1 (2) (1986) 183-206.
[4] R. Buckmire, Investigations of nonstandard Mickens-type finitedifference schemes for singular boundary value problems in cylindrical or spherical coordinates, Numerical Methods for partial Differential equations 19 (3) (2003) 380-398.
[5] R. Buckmire, Application of Mickens finite-difference scheme to the cylindrical Bratu Gelfand problem, doi:10.1002/num.10093.
[6] C.F.Chen, C.H.Hsiao, Haar wavelet method for solving lumped and distributed- parameter systems, IEE Proc.Pt.D 144(1) (1997) 87-94.
[7] D.A. Frank-Kamenetski, Diffusion and Heat Exchange in Chemical Kinetics, Princeton University Press, Princeton, NJ, 1955.
[8] I.H.A.H. Hassan, V.S. Erturk, Applying differential transformation method to the One-dimensional planar Bratu problem, International Journal of Contemporary Mathematical Sciences 2 (2007) 1493-1504.
[9] Hikmet Caglar, Nazan Caglar, Mehmet zer, Antonios Valaristo, Amalia N. Miliou, Antonios N. Anagnostopoulos, Dynamics of the solution of Bratu-s Equation, Nonlinear Analysis, (Press).
[10] C.H.Hsiao, Haar wavelet approach to linear stiff systems, Mathematics and Computers in simultion ,Vol 64, 2004, pp.561-567.
[11] J. Jacobson, K. Schmitt, The Liouville-Bratu-Gelfand problem for radial operators, Journal of Differential Equations 184 (2002) 283-298.
[12] U.Lepik, Numerical solution of evolution equations by the Haar wavelet method, Applied Mathematics and Computation 185 (2007) 695-704.
[13] U.Lepik, Numerical solution of differential equations using Haar wavelets, Mathematics and Computers in Simulation 68 (2005) 127-143.
[14] S. Li, S.J. Liao, An analytic approach to solve multiple solutions of a strongly nonlinear problem, Applied Mathematics and Computation 169 (2005) 854-865.
[15] A.S. Mounim, B.M. de Dormale, From the fitting techniques to accurate schemes for the Liouville Bratu Gelfand problem, Numerical Methods for Partial Differential Equations, doi: 10.1002/num.20116.
[16] M.I. Syam, A. Hamdan, An efficient method for solving Bratu equations, Applied Mathematics and Computation 176 (2006) 704-713.
[17] A.M. Wazwaz, A new method for solving singular initial value problems in the second order differential equations, Applied Mathematics and Computation 128 (2002) 47-57.
[18] A.M. Wazwaz, Adomian decomposition method for a reliable treatment of the Bratu-type equations, Applied Mathematics and Computation 166 (2005) 652-663.