طرق تكرارية موثوقة لحساب تراكيز ثنائي اوكسيد الكاربون الممتص بواسطة فينيل غلايسيدل الايثر == Reliable Iterative Methods for Calculating the Concentrations of Carbon Dioxide Absorbed into Phenyl Glycidyl Ether
Author name:
غسان حسن محمود راضي
Supervisor name:
مجيد احمد ولي
General topic:
Mathematics
Specific topic:
Mathematics
Degree:
Master
University:
University of Baghdad
Language:
English
University location:
Baghdad
First pages:
27T1171 - p.pdf
Abstract:
In this thesis, two reliable iterative methods are used to calculate the concentrations of carbon dioxide CO2 and phenyl glycidyl ether PGE. The first one is the variational iteration method. It is used to get an approximate solution for a system of two coupled nonlinear ordinary differential equations which represent the concentrations of CO2 and PGE. The other method is the standard homotopy analysis method which is implemented on this system. Formerly, this system has been solved by the Adomiandecomposition method. In solving this system by Adomian’s method, the nonlinearity needs calculating the Adomian’s polynomials. On the other hand, the two methods do not require any assumptions like the calculating of the Adomian’s polynomials. In this system there are boundary conditions of Dirichlet type and the other is a mix of Neumann and Dirichlet type. Our calculations are evidenced by tables and figures for the analysis of the maximal error remainder values. The variational iteration method givesapproximate solutions with fast convergence. Comparison with the results obtained by the Adomian decomposition method shows that the numerical solutions obtained by the variational iteration method converge faster than those of Adomian's method. Also, the homotopy analysis method which is implemented on this system has a very fast convergence in giving approximate solutions. Moreover, the numerical solutions resulted from the homotopy analysis method converge faster than those of Adomian's methodwhich has been implemented previously for the same problem. The numerical results also show high rates of convergence which are obtained at the increasing of the iterations. The used software of the contained calculations in our study is Mathematica 9.
