Abstract

The flow, heat and mass transfer of water-based nanofluid are examined between two horizontal parallel plates in a rotating system. The effects of Brownian motion, thermophoresis, viscosity and Hall current parameters are considered. The governing partial differential equations are reduced to ordinary differential equations that are then solved numerically using the Runge–Kutta–Fehlberg method. Validation of numerical solution is achieved with an exact solution of primary velocity and found to be in good agreement. Results show that both surfaces experience opposite behavior regarding skin friction, Nusselt and Sherwood numbers in both primary and secondary flows. These physical quantities depend upon dimensionless parameters and numbers.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Heat and Mass Transfer of Nanofluid from Horizontal Cylinder to Micropolar Fluid
O Anwar Bég ... V Ramachandra Prasad
Journal of Thermophysics and Heat Transfer | VOL. 29
O Anwar Bég, et. al.O Anwar Bég ... V Ramachandra Prasad
08 Oct 2014
A new numerical method for investigation of thermophoresis and Brownian motion effects on MHD nanofluid flow and heat transfer between parallel plates partially filled with a porous medium
Habib-Olah Sayehvand ... Amir Basiri Parsa
Results in Physics | VOL. 7
Habib-Olah Sayehvand, et. al.Habib-Olah Sayehvand ... Amir Basiri Parsa
01 Jan 2017
Heat transfer and pressure drop characteristics of nanofluid in unsteady squeezing flow between rotating porous disks considering the effects of thermophoresis and Brownian motion
Hossein Tamim ... Mohammad Hassan Saidi
Advanced Powder Technology | VOL. 27
Hossein Tamim, et. al.Hossein Tamim ... Mohammad Hassan Saidi
15 Feb 2016
Retraction: Heat and Mass Transfer of Nanofluid from Horizontal Cylinder to Micropolar Fluid
S Abdul Gaffar ... V Ramachandra Prasad
Journal of Thermophysics and Heat Transfer | VOL. 34
S Abdul Gaffar, et. al.S Abdul Gaffar ... V Ramachandra Prasad
11 Aug 2017
View more papers

More From: Journal of Engineering Thermophysics

Paper Title
Journal
Date
Author
Numerical Investigation of Heat Transfer Enhancement on Tangent Hyperbolic Fluid over a Stretching Sheet with an Inclined Magnetic Field Filled with Hybrid Nanofluids
M N Tamanna ... M Ferdows
Journal of Engineering Thermophysics | VOL. 33
M N Tamanna, et. al.M N Tamanna ... M Ferdows
01 Mar 2024
Experimental Study of Heat Transfer of Different-Thickness Plate Modules of Heat and Mass Transfer Device
A V Stepykin ... E M Tutanina
Journal of Engineering Thermophysics | VOL. 33
A V Stepykin, et. al.A V Stepykin ... E M Tutanina
01 Mar 2024
Analytical Solutions of the Transport Equation for a Drift Model in an Unsteady Flow with Discontinuous Parameters
V E Kroshilin
Journal of Engineering Thermophysics | VOL. 33
V E KroshilinV E Kroshilin
01 Mar 2024
Influence of Flow Rate of Thermal Fluid on Duration of Heating of SWS-1L Adsorbent in Heat Exchanger
A D Grekova ... V S Morozov
Journal of Engineering Thermophysics | VOL. 33
A D Grekova, et. al.A D Grekova ... V S Morozov
01 Mar 2024
View more papers