Madbouly, N.M. and McGhee, D.F. and Roach, G.F. (2001) Admonian's method for Hammerstein integral equations arising from chemical reactor theory. Applied Mathematics and Computation, 117 (23). pp. 241249. ISSN 00963003

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Official URL: http://dx.doi.org/10.1016/S00963003(99)001770
Abstract
An ordinary differential equation with a parameter in the boundary conditions describes the steady state in an adiabatic tubular chemical reactor. In this paper, the problem is considered as a Hammerstein integral equation and solutions are obtained using Adomian's decomposition method.
Item type:  Article 

ID code:  2022 
Keywords:  chemical reactor theory, Adomian's method, Hammerstein integral equations, Physics, Computational Mathematics, Applied Mathematics 
Subjects:  Science > Physics 
Department:  Faculty of Science > Mathematics and Statistics 
Depositing user:  Strathprints Administrator 
Date Deposited:  26 Nov 2006 
Last modified:  20 Oct 2015 20:11 
URI:  http://strathprints.strath.ac.uk/id/eprint/2022 
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