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Main Authors: Wang, Yunxia, Si, Zhiyong
Format: Preprint
Published: 2022
Subjects:
Online Access:https://arxiv.org/abs/2210.10550
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author Wang, Yunxia
Si, Zhiyong
author_facet Wang, Yunxia
Si, Zhiyong
contents In this paper, we will provide the the finite element method for the electro-osmotic flow in micro-channels, in which a convection-diffusion type equation is given for the charge density $ρ^e$. A time-discrete method based on the backward Euler method is designed. The theoretical analysis shows that the numerical algorithm is unconditionally stable and has optimal convergence rates. To show the effectiveness of the proposed model, some numerical results for the electro-osmotic flow in the T-junction micro-channels and in rough micro-channels are provided. Numerical results indicate that the proposed numerical method is suitable for simulating electro-osmotic flows.
format Preprint
id arxiv_https___arxiv_org_abs_2210_10550
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Unconditional stability and error estimates of FEMs for the electro-osmotic flow in micro-channels
Wang, Yunxia
Si, Zhiyong
Numerical Analysis
In this paper, we will provide the the finite element method for the electro-osmotic flow in micro-channels, in which a convection-diffusion type equation is given for the charge density $ρ^e$. A time-discrete method based on the backward Euler method is designed. The theoretical analysis shows that the numerical algorithm is unconditionally stable and has optimal convergence rates. To show the effectiveness of the proposed model, some numerical results for the electro-osmotic flow in the T-junction micro-channels and in rough micro-channels are provided. Numerical results indicate that the proposed numerical method is suitable for simulating electro-osmotic flows.
title Unconditional stability and error estimates of FEMs for the electro-osmotic flow in micro-channels
topic Numerical Analysis
url https://arxiv.org/abs/2210.10550