Thermally conductive electro-osmotic propulsive pressure-driven peristaltic streaming flow study with a suspended nanomaterial in a micro-ciliated tube
This article focuses on the peristaltic flow of carbon nanoparticle-suspended nanofluids under the influence of electroosmosis. The flow is considered inside a vertical tube with ciliated boundary walls. This study holds great importance because it represents the flow inside the esophagus of the hum...
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Format: | Article |
Language: | English |
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Frontiers Media S.A.
2022-11-01
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Series: | Frontiers in Materials |
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Online Access: | https://www.frontiersin.org/articles/10.3389/fmats.2022.1059816/full |
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author | Adil Wahid Butt Noreen Sher Akbar Rashid Mehmood Shahid Farooq |
author_facet | Adil Wahid Butt Noreen Sher Akbar Rashid Mehmood Shahid Farooq |
author_sort | Adil Wahid Butt |
collection | DOAJ |
description | This article focuses on the peristaltic flow of carbon nanoparticle-suspended nanofluids under the influence of electroosmosis. The flow is considered inside a vertical tube with ciliated boundary walls. This study holds great importance because it represents the flow inside the esophagus of the human body. Nanoparticles are inserted in blood for diagnosing diseases like cancer and are also useful in angiography, angioplasty, etc. A comparative study is conducted for single-walled carbon nanotubes and multi-walled carbon nanotubes. We used the analytical method to obtain exact solutions of the velocity, temperature, and pressure profiles. The results have been presented graphically. Streamlines are also plotted to visualize the difference with SWCNT and MWCNT. We found that the use of CNT in the base fluid significantly enhances the thermal conductivity and helps increase the velocity of the fluid. |
first_indexed | 2024-04-13T08:25:06Z |
format | Article |
id | doaj.art-dd166edb3e34465090aca6198ece7852 |
institution | Directory Open Access Journal |
issn | 2296-8016 |
language | English |
last_indexed | 2024-04-13T08:25:06Z |
publishDate | 2022-11-01 |
publisher | Frontiers Media S.A. |
record_format | Article |
series | Frontiers in Materials |
spelling | doaj.art-dd166edb3e34465090aca6198ece78522022-12-22T02:54:32ZengFrontiers Media S.A.Frontiers in Materials2296-80162022-11-01910.3389/fmats.2022.10598161059816Thermally conductive electro-osmotic propulsive pressure-driven peristaltic streaming flow study with a suspended nanomaterial in a micro-ciliated tubeAdil Wahid Butt0Noreen Sher Akbar1Rashid Mehmood2Shahid Farooq3Department of Mathematics and Statistics, Riphah International University, Rawalpindi, PakistanDBS&H CEME, National University of Sciences and Technology, Islamabad, PakistanDepartment of Mathematics, Faculty of Natural Sciences, HITEC University, Taxila, PakistanDepartment of Mathematics and Statistics, Riphah International University, Rawalpindi, PakistanThis article focuses on the peristaltic flow of carbon nanoparticle-suspended nanofluids under the influence of electroosmosis. The flow is considered inside a vertical tube with ciliated boundary walls. This study holds great importance because it represents the flow inside the esophagus of the human body. Nanoparticles are inserted in blood for diagnosing diseases like cancer and are also useful in angiography, angioplasty, etc. A comparative study is conducted for single-walled carbon nanotubes and multi-walled carbon nanotubes. We used the analytical method to obtain exact solutions of the velocity, temperature, and pressure profiles. The results have been presented graphically. Streamlines are also plotted to visualize the difference with SWCNT and MWCNT. We found that the use of CNT in the base fluid significantly enhances the thermal conductivity and helps increase the velocity of the fluid.https://www.frontiersin.org/articles/10.3389/fmats.2022.1059816/fullelectroosmosisperistalsisnanofluidpressure-driven flownanomaterial |
spellingShingle | Adil Wahid Butt Noreen Sher Akbar Rashid Mehmood Shahid Farooq Thermally conductive electro-osmotic propulsive pressure-driven peristaltic streaming flow study with a suspended nanomaterial in a micro-ciliated tube Frontiers in Materials electroosmosis peristalsis nanofluid pressure-driven flow nanomaterial |
title | Thermally conductive electro-osmotic propulsive pressure-driven peristaltic streaming flow study with a suspended nanomaterial in a micro-ciliated tube |
title_full | Thermally conductive electro-osmotic propulsive pressure-driven peristaltic streaming flow study with a suspended nanomaterial in a micro-ciliated tube |
title_fullStr | Thermally conductive electro-osmotic propulsive pressure-driven peristaltic streaming flow study with a suspended nanomaterial in a micro-ciliated tube |
title_full_unstemmed | Thermally conductive electro-osmotic propulsive pressure-driven peristaltic streaming flow study with a suspended nanomaterial in a micro-ciliated tube |
title_short | Thermally conductive electro-osmotic propulsive pressure-driven peristaltic streaming flow study with a suspended nanomaterial in a micro-ciliated tube |
title_sort | thermally conductive electro osmotic propulsive pressure driven peristaltic streaming flow study with a suspended nanomaterial in a micro ciliated tube |
topic | electroosmosis peristalsis nanofluid pressure-driven flow nanomaterial |
url | https://www.frontiersin.org/articles/10.3389/fmats.2022.1059816/full |
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