Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source
This article presents a study on singularly perturbed 1D parabolic Dirichlet’s type differential equations with discontinuous source terms on an interior line. The time derivative is discretized using the Euler backward method, followed by the application of the streamline–diffusion finite element m...
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sg-ntu-dr.10356-1697482023-08-04T15:40:10Z Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source Soundararajan, R. Subburayan, V. Wong, Patricia Jia Ying School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Singularly Perturbed Problem parabolic differential equation; This article presents a study on singularly perturbed 1D parabolic Dirichlet’s type differential equations with discontinuous source terms on an interior line. The time derivative is discretized using the Euler backward method, followed by the application of the streamline–diffusion finite element method (SDFEM) to solve locally one-dimensional stationary problems on a Shishkin mesh. Our proposed method is shown to achieve first-order convergence in time and second-order convergence in space. Our proposed method offers several advantages over existing techniques, including more accurate approximations of the solution on the boundary layer region, better efficiency, and robustness in dealing with discontinuous line source terms. The numerical examples presented in this paper demonstrate the effectiveness and efficiency of our method, which has practical applications in various fields, such as engineering and applied mathematics. Overall, our proposed method provides an effective and efficient solution to the challenging problem of solving singularly perturbed parabolic differential equations with discontinuous line source terms, making it a valuable tool for researchers and practitioners in various domains. Published version 2023-08-01T08:39:06Z 2023-08-01T08:39:06Z 2023 Journal Article Soundararajan, R., Subburayan, V. & Wong, P. J. Y. (2023). Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source. Mathematics, 11(9), 2034-. https://dx.doi.org/10.3390/math11092034 2227-7390 https://hdl.handle.net/10356/169748 10.3390/math11092034 2-s2.0-85159171791 9 11 2034 en Mathematics © 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Electrical and electronic engineering Singularly Perturbed Problem parabolic differential equation; Soundararajan, R. Subburayan, V. Wong, Patricia Jia Ying Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source |
| description |
This article presents a study on singularly perturbed 1D parabolic Dirichlet’s type differential equations with discontinuous source terms on an interior line. The time derivative is discretized using the Euler backward method, followed by the application of the streamline–diffusion finite element method (SDFEM) to solve locally one-dimensional stationary problems on a Shishkin mesh. Our proposed method is shown to achieve first-order convergence in time and second-order convergence in space. Our proposed method offers several advantages over existing techniques, including more accurate approximations of the solution on the boundary layer region, better efficiency, and robustness in dealing with discontinuous line source terms. The numerical examples presented in this paper demonstrate the effectiveness and efficiency of our method, which has practical applications in various fields, such as engineering and applied mathematics. Overall, our proposed method provides an effective and efficient solution to the challenging problem of solving singularly perturbed parabolic differential equations with discontinuous line source terms, making it a valuable tool for researchers and practitioners in various domains. |
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School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Soundararajan, R. Subburayan, V. Wong, Patricia Jia Ying |
| format |
Article |
| author |
Soundararajan, R. Subburayan, V. Wong, Patricia Jia Ying |
| author_sort |
Soundararajan, R. |
| title |
Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source |
| title_short |
Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source |
| title_full |
Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source |
| title_fullStr |
Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source |
| title_full_unstemmed |
Streamline diffusion finite element method for singularly perturbed 1D-parabolic convection diffusion differential equations with line discontinuous source |
| title_sort |
streamline diffusion finite element method for singularly perturbed 1d-parabolic convection diffusion differential equations with line discontinuous source |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169748 |
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1773551309326123008 |