Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem

Tesfaye Aga; Gemechis File; Guy Degla

doi:10.24107/ijeas.567374

Araştırma Makalesi

Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem

Yıl 2019, Cilt: 11 Sayı: 3, 414 - 427, 13.11.2019

Tesfaye Aga Gemechis File Guy Degla

https://doi.org/10.24107/ijeas.567374

Cited By: 3

Öz

In this paper, we
study a fitted operator average finite difference method for solving singularly perturbed
parabolic convection-diffusion problems with boundary layer at right side.
After discretizing the solution domain uniformly, the differential equation is
replaced by average finite difference approximation which gives system of
algebraic equation at each time levels. The stability and consistency of the
method established very well to guarantee the convergence of the method.
Furthermore, some numerical results are given to support our theoretical
results and to validate the betterment of using fitted operator methods

Anahtar Kelimeler

Fitted operator, singular perturbation, parabolic problems

Destekleyen Kurum

no

Proje Numarası

no

Teşekkür

Thanks IJEAS Journal

Kaynakça

[1] Gowrisankar S., Srinivasan N., Robust numerical scheme for singularly perturbed convection–diffusion parabolic initial–boundary-value problems on equidistributed grids, Computer Physics Communications, 185, 2008-2019, 2014
[2] Munyakazi J. B., A Robust Finite Difference Method for Two-Parameter Parabolic Convection-Diffusion Problems, An International Journal of Applied Mathematics & Information Sciences, Vol. 9(6), 2877-2883, 2015
[3] Miller H. J.J, O’Riordan E. and Shishkin I. G., Fitted numerical methods for singular perturbation problems, Error estimate in the maximum norm for linear problems in one and two dimensions, World Scientific, 1996
[4] Das P. and Mehrmann V., Numerical solution of singularly perturbed convection-diffusion-reaction problems with two small parameters, BIT Numer Math DOI 10.1007/s10543-015-0559-8, 2015
[5] Rai P. and. Sharma K. K., Singularly perturbed parabolic differential equations with turning point and retarded arguments, IAENG International Journal of Applied Mathematics, 45:4, IJAM_45_4_20, 2015
[6] Mohanty R. K., Dahiya V., Khosla N., Spline in Compression Methods for Singularly Perturbed 1D Parabolic Equations with Singular Coefficients, Open Journal of Discrete Mathematics, 2, 70-77, 2012
[7] Roos G. H., Stynes M.and Tobiska L., Robust numerical methods for singularly perturbed differential equations, Convection-diffusion-reaction and flow problems, Springer-Verlag Berlin Heidelberg, Second Edition, 2008
[8] Suayip Y. S. and Sahin N., Numerical solutions of singularly perturbed one-dimensional parabolic convection–diffusion problems by the Bessel collocation method, Applied Mathematics and Computation 220, 305–315, 2013 [9] Vivek K. and Srinivasan B., A novel adaptive mesh strategy for singularly perturbed parabolic convection diffusion problems, Differ Equ Dyn Syst, DOI 10.1007/s12591-017-0394-2, 2017 [10]. Yanping C. and Li-Bin L., An adaptive grid method for singularly perturbed time – dependent convection diffusion problems, Commun. Comput. Phys, 20, 1340-1358, 2016.

Yıl 2019, Cilt: 11 Sayı: 3, 414 - 427, 13.11.2019

Tesfaye Aga Gemechis File Guy Degla

https://doi.org/10.24107/ijeas.567374

Cited By: 3

Öz

Proje Numarası

no

Kaynakça

[1] Gowrisankar S., Srinivasan N., Robust numerical scheme for singularly perturbed convection–diffusion parabolic initial–boundary-value problems on equidistributed grids, Computer Physics Communications, 185, 2008-2019, 2014
[2] Munyakazi J. B., A Robust Finite Difference Method for Two-Parameter Parabolic Convection-Diffusion Problems, An International Journal of Applied Mathematics & Information Sciences, Vol. 9(6), 2877-2883, 2015
[3] Miller H. J.J, O’Riordan E. and Shishkin I. G., Fitted numerical methods for singular perturbation problems, Error estimate in the maximum norm for linear problems in one and two dimensions, World Scientific, 1996
[4] Das P. and Mehrmann V., Numerical solution of singularly perturbed convection-diffusion-reaction problems with two small parameters, BIT Numer Math DOI 10.1007/s10543-015-0559-8, 2015
[5] Rai P. and. Sharma K. K., Singularly perturbed parabolic differential equations with turning point and retarded arguments, IAENG International Journal of Applied Mathematics, 45:4, IJAM_45_4_20, 2015
[6] Mohanty R. K., Dahiya V., Khosla N., Spline in Compression Methods for Singularly Perturbed 1D Parabolic Equations with Singular Coefficients, Open Journal of Discrete Mathematics, 2, 70-77, 2012
[7] Roos G. H., Stynes M.and Tobiska L., Robust numerical methods for singularly perturbed differential equations, Convection-diffusion-reaction and flow problems, Springer-Verlag Berlin Heidelberg, Second Edition, 2008
[8] Suayip Y. S. and Sahin N., Numerical solutions of singularly perturbed one-dimensional parabolic convection–diffusion problems by the Bessel collocation method, Applied Mathematics and Computation 220, 305–315, 2013 [9] Vivek K. and Srinivasan B., A novel adaptive mesh strategy for singularly perturbed parabolic convection diffusion problems, Differ Equ Dyn Syst, DOI 10.1007/s12591-017-0394-2, 2017 [10]. Yanping C. and Li-Bin L., An adaptive grid method for singularly perturbed time – dependent convection diffusion problems, Commun. Comput. Phys, 20, 1340-1358, 2016.

Toplam 8 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Mühendislik
Bölüm	Makaleler
Yazarlar	Tesfaye Aga 0000-0001-6766-4803 Gemechis File Guy Degla Bu kişi benim
Proje Numarası	no
Yayımlanma Tarihi	13 Kasım 2019
Kabul Tarihi	25 Temmuz 2019
Yayımlandığı Sayı	Yıl 2019 Cilt: 11 Sayı: 3

Kaynak Göster

APA	Aga, T., File, G., & Degla, G. (2019). Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem. International Journal of Engineering and Applied Sciences, 11(3), 414-427. https://doi.org/10.24107/ijeas.567374
AMA	Aga T, File G, Degla G. Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem. IJEAS. Kasım 2019;11(3):414-427. doi:10.24107/ijeas.567374
Chicago	Aga, Tesfaye, Gemechis File, ve Guy Degla. “Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem”. International Journal of Engineering and Applied Sciences 11, sy. 3 (Kasım 2019): 414-27. https://doi.org/10.24107/ijeas.567374.
EndNote	Aga T, File G, Degla G (01 Kasım 2019) Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem. International Journal of Engineering and Applied Sciences 11 3 414–427.
IEEE	T. Aga, G. File, ve G. Degla, “Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem”, IJEAS, c. 11, sy. 3, ss. 414–427, 2019, doi: 10.24107/ijeas.567374.
ISNAD	Aga, Tesfaye vd. “Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem”. International Journal of Engineering and Applied Sciences 11/3 (Kasım 2019), 414-427. https://doi.org/10.24107/ijeas.567374.
JAMA	Aga T, File G, Degla G. Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem. IJEAS. 2019;11:414–427.
MLA	Aga, Tesfaye vd. “Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem”. International Journal of Engineering and Applied Sciences, c. 11, sy. 3, 2019, ss. 414-27, doi:10.24107/ijeas.567374.
Vancouver	Aga T, File G, Degla G. Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem. IJEAS. 2019;11(3):414-27.

International Journal of Engineering and Applied Sciences

Fitted Operator Average Finite Difference Method for Singularly Perturbed Parabolic Convection- Diffusion Problem

Öz

Anahtar Kelimeler

Destekleyen Kurum

Proje Numarası

Teşekkür

Kaynakça

Öz

Proje Numarası

Kaynakça

Ayrıntılar

Kaynak Göster

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