Peristaltic transport of an aqueous solution of silver nanoparticles with convective heat transfer at the boundaries

F. M. Abbasi; T. Hayat; B. Ahmad

doi:10.1139/cjp-2014-0625

Peristaltic transport of an aqueous solution of silver nanoparticles with convective heat transfer at the boundaries

F. M. Abbasi
, T. Hayat
, B. Ahmad

COMSATS University Islamabad
Quaid-I-Azam University
Faculty of Sciences, King Abdulaziz University

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Peristaltic transport of water-based silver nanoparticles in a symmetric channel with convective walls is explored. Analysis has been carried out in the presence of heat source-sink, viscous dissipation, and mixed convection. Lubrication approach has been utilized. Resulting coupled system is solved numerically using the shooting method. Graphical analysis for flow quantities and heat transfer has been made. Results show that the addition of silver nanoparticles considerably reduces the velocity and temperature of the fluid. Enhancement in heat transfer rate at the wall for large nanoparticle volume fraction is also reported. Interesting outcomes of this study are summarized.

Original language	English
Pages (from-to)	1190-1198
Number of pages	9
Journal	Canadian Journal of Physics
Volume	93
Issue number	10
DOIs	https://doi.org/10.1139/cjp-2014-0625
State	Published - 3 Feb 2015
Externally published	Yes

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abstract = "Peristaltic transport of water-based silver nanoparticles in a symmetric channel with convective walls is explored. Analysis has been carried out in the presence of heat source-sink, viscous dissipation, and mixed convection. Lubrication approach has been utilized. Resulting coupled system is solved numerically using the shooting method. Graphical analysis for flow quantities and heat transfer has been made. Results show that the addition of silver nanoparticles considerably reduces the velocity and temperature of the fluid. Enhancement in heat transfer rate at the wall for large nanoparticle volume fraction is also reported. Interesting outcomes of this study are summarized.",

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AU - Abbasi, F. M.

AU - Hayat, T.

AU - Ahmad, B.

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Y1 - 2015/2/3

N2 - Peristaltic transport of water-based silver nanoparticles in a symmetric channel with convective walls is explored. Analysis has been carried out in the presence of heat source-sink, viscous dissipation, and mixed convection. Lubrication approach has been utilized. Resulting coupled system is solved numerically using the shooting method. Graphical analysis for flow quantities and heat transfer has been made. Results show that the addition of silver nanoparticles considerably reduces the velocity and temperature of the fluid. Enhancement in heat transfer rate at the wall for large nanoparticle volume fraction is also reported. Interesting outcomes of this study are summarized.

AB - Peristaltic transport of water-based silver nanoparticles in a symmetric channel with convective walls is explored. Analysis has been carried out in the presence of heat source-sink, viscous dissipation, and mixed convection. Lubrication approach has been utilized. Resulting coupled system is solved numerically using the shooting method. Graphical analysis for flow quantities and heat transfer has been made. Results show that the addition of silver nanoparticles considerably reduces the velocity and temperature of the fluid. Enhancement in heat transfer rate at the wall for large nanoparticle volume fraction is also reported. Interesting outcomes of this study are summarized.

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DO - 10.1139/cjp-2014-0625

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SP - 1190

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JO - Canadian Journal of Physics

JF - Canadian Journal of Physics

IS - 10

ER -

Peristaltic transport of an aqueous solution of silver nanoparticles with convective heat transfer at the boundaries

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