An effective pure meshfree method for 1D/2D time fractional convection-diffusion problems on irregular geometry
•An effective pure meshfree method is first developed to solve the 1D/2D constant/variable-order time fractional convection-diffusion equation (TF-CDE).•The numerical convergence rate of the proposed CSPH-FDM for TF-CDE is demonstrated by several examples.•The non-uniform particle distributions on r...
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| Published in | Engineering analysis with boundary elements Vol. 118; pp. 265 - 276 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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Elsevier Ltd
01.09.2020
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| Abstract | •An effective pure meshfree method is first developed to solve the 1D/2D constant/variable-order time fractional convection-diffusion equation (TF-CDE).•The numerical convergence rate of the proposed CSPH-FDM for TF-CDE is demonstrated by several examples.•The non-uniform particle distributions on rectangle region or irregular computing domain are considered for showing the advantage of the proposed method.•The proposed CSPH-FDM is extended to predict the solute moving process versus time by solving TF-CDE.
An easy implemented and effective pure meshfree method is first developed to solve the 1D/2D constant/variable-order time fractional convection-diffusion equation (TF-CDE) on non-regular domain with two boundary conditions in this paper. The proposed method (CSPH-FDM) is derived from that the finite difference scheme (FDM) for Caputo time fractional derivative and a corrected smoothed particle hydrodynamics (CSPH) without kernel derivative for spatial derivatives. In the proposed CSPH-FDM, the high-order spatial derivative is divided into multi first-order derivatives and solved continuously by the CSPH, the Neumann boundary condition can be accurately treated, the two distribution cases of the local refinement and irregular particles or the arbitrary irregular shape domain can be easily and effectively implemented by the CSPH. To demonstrate the validity and numerical convergent order of the proposed method, several 1D/2D analytical examples with local refinement and irregular particles distributions or on complex geometries are first investigated, in which a four-order derivate problem with Neumann boundary is also considered. Subsequently, the CSPH-FDM is extended to predict the solute moving process versus time by two TF-CDEs on different irregular domains and compared with other numerical results. All the numerical results show the flexible application ability and reliability of the present method. |
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| AbstractList | •An effective pure meshfree method is first developed to solve the 1D/2D constant/variable-order time fractional convection-diffusion equation (TF-CDE).•The numerical convergence rate of the proposed CSPH-FDM for TF-CDE is demonstrated by several examples.•The non-uniform particle distributions on rectangle region or irregular computing domain are considered for showing the advantage of the proposed method.•The proposed CSPH-FDM is extended to predict the solute moving process versus time by solving TF-CDE.
An easy implemented and effective pure meshfree method is first developed to solve the 1D/2D constant/variable-order time fractional convection-diffusion equation (TF-CDE) on non-regular domain with two boundary conditions in this paper. The proposed method (CSPH-FDM) is derived from that the finite difference scheme (FDM) for Caputo time fractional derivative and a corrected smoothed particle hydrodynamics (CSPH) without kernel derivative for spatial derivatives. In the proposed CSPH-FDM, the high-order spatial derivative is divided into multi first-order derivatives and solved continuously by the CSPH, the Neumann boundary condition can be accurately treated, the two distribution cases of the local refinement and irregular particles or the arbitrary irregular shape domain can be easily and effectively implemented by the CSPH. To demonstrate the validity and numerical convergent order of the proposed method, several 1D/2D analytical examples with local refinement and irregular particles distributions or on complex geometries are first investigated, in which a four-order derivate problem with Neumann boundary is also considered. Subsequently, the CSPH-FDM is extended to predict the solute moving process versus time by two TF-CDEs on different irregular domains and compared with other numerical results. All the numerical results show the flexible application ability and reliability of the present method. |
| Author | Huang, Jin-Jing Jiang, Tao Ren, Jin-Lian Wang, Xing-Chi |
| Author_xml | – sequence: 1 givenname: Tao surname: Jiang fullname: Jiang, Tao email: jtrjl_2007@126.com organization: School of Mathematical Sciences, Yangzhou University, Yangzhou, 225002, China – sequence: 2 givenname: Xing-Chi surname: Wang fullname: Wang, Xing-Chi organization: School of Mathematical Sciences, Yangzhou University, Yangzhou, 225002, China – sequence: 3 givenname: Jin-Jing surname: Huang fullname: Huang, Jin-Jing organization: School of Mathematical Sciences, Yangzhou University, Yangzhou, 225002, China – sequence: 4 givenname: Jin-Lian surname: Ren fullname: Ren, Jin-Lian organization: School of Mathematical Sciences, Yangzhou University, Yangzhou, 225002, China |
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| Title | An effective pure meshfree method for 1D/2D time fractional convection-diffusion problems on irregular geometry |
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