The present research aims to examine the micropolar nanofluid flow of Casson fluid between two parallel plates in a rotating system with effects of thermal radiation. The influence of Hall current on the micropolar nanofluids have been taken into account. The fundamental leading equations are transformed to a system of nonlinear differential equations using appropriate similarity variables. An optimal and numerical tactic is used to get the solution of the problem. The convergence and comparison have been shown numerically. The impact of the Hall current, Brownian movement, and thermophoresis phenomena of Casson nanofluid have been mostly concentrated in this investigation. It is found that amassed Hall impact decreases the operative conductivity which intends to increase the velocity field. The temperature field enhances with larger values of Brownian motion thermophoresis effect. The impacts of the Skin friction coefficient, heat flux, and mass flux have been deliberate. The skin friction coefficient is observed to be larger for , as compared to the case of . Furthermore, for conception and visual demonstration, the embedded parameters have been deliberated graphically.
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Radiative Heat and Mass Transfer Analysis of Micropolar Nanofluid Flow of Casson Fluid Between Two Rotating Parallel Plates With Effects of Hall Current
Zahir Shah,
Zahir Shah
Department of Mathematics,
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: zahir1987@yahoo.com
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: zahir1987@yahoo.com
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Saeed Islam,
Saeed Islam
Department of Mathematics,
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: proud_pak@hotmail.com
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: proud_pak@hotmail.com
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Hamza Ayaz,
Hamza Ayaz
Islamic University of Technology,
Board Bazar,
Gazipur 1704, Bangladesh
e-mail: hamzaayaz@iut-dhaka.edu
Board Bazar,
Gazipur 1704, Bangladesh
e-mail: hamzaayaz@iut-dhaka.edu
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Saima Khan
Saima Khan
Department of Physics,
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: saima@awkum.edu.pk
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: saima@awkum.edu.pk
Search for other works by this author on:
Zahir Shah
Department of Mathematics,
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: zahir1987@yahoo.com
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: zahir1987@yahoo.com
Saeed Islam
Department of Mathematics,
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: proud_pak@hotmail.com
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: proud_pak@hotmail.com
Hamza Ayaz
Islamic University of Technology,
Board Bazar,
Gazipur 1704, Bangladesh
e-mail: hamzaayaz@iut-dhaka.edu
Board Bazar,
Gazipur 1704, Bangladesh
e-mail: hamzaayaz@iut-dhaka.edu
Saima Khan
Department of Physics,
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: saima@awkum.edu.pk
Abdul Wali Khan University,
Mardan 23200, KP, Pakistan
e-mail: saima@awkum.edu.pk
1Corresponding author.
Contributed by the Heat Transfer Division of ASME for publication in the JOURNAL OF HEAT TRANSFER. Manuscript received January 14, 2018; final manuscript received May 17, 2018; published online November 26, 2018. Assoc. Editor: Yuwen Zhang.
J. Heat Transfer. Feb 2019, 141(2): 022401 (13 pages)
Published Online: November 26, 2018
Article history
Received:
January 14, 2018
Revised:
May 17, 2018
Citation
Shah, Z., Islam, S., Ayaz, H., and Khan, S. (November 26, 2018). "Radiative Heat and Mass Transfer Analysis of Micropolar Nanofluid Flow of Casson Fluid Between Two Rotating Parallel Plates With Effects of Hall Current." ASME. J. Heat Transfer. February 2019; 141(2): 022401. https://doi.org/10.1115/1.4040415
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