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| | CLINICAL CASE ARTICLE | Am. J. innov. res. appl. sci. Volume 11, Issue 4, Pages 73-82 (October 2020) |
| Research Article 10 |
|
American Journal of innovative
Research & Applied Sciences
Research & Applied Sciences
ISSN 2429-5396 (Online)
OCLC Number: 920041286
OCLC Number: 920041286
| HOME || ABOUT US || ARCHIVES || AIMS AND SCOP || AUTHORS || REVIEW|| SUBMIT MANUSCRIPT || EDITORIAL BOARD || CONTACT US |
| OCTOBER | VOLUME 11 | N° 4 | 2020 |
| Info-AJIRAS-® Journal ISSN 2429-5396 (Online) / Reference CIF/15/0289M |
American Journal of Innovative Research & Applied Sciences
ABSTRACT
Background: The nanofluid in view of the fabulous thermal conductivity enhancement have been recognized useful in several industrial and engineering applications. Methods: The unsteady laminar boundary layer flow using Nano fluid with viscous dissipation effect and heat source along a stretching sheet has been investigated numerically. To obtain non - similar equations, continuity, momentum, energy, and concentration equations have been non-dimensionalized by usual transformation. Results: The non-similar solutions are considered here which depend on the Prandtl number, Eckert number, Lewis number, Brownian motion parameter , thermophoresis parameter and Grashof number. The obtained equations have been solved by an explicit finite difference method with stability and convergence analysis. This method is a powerful technique for obtaining the approximate solution of the boundary value problems. The velocity, temperature, and concentration profiles are shown in graphically for different time steps and for the different values of the parameters.
Keywords: Nanofluid, Stretching surface, Viscous dissipation.
Background: The nanofluid in view of the fabulous thermal conductivity enhancement have been recognized useful in several industrial and engineering applications. Methods: The unsteady laminar boundary layer flow using Nano fluid with viscous dissipation effect and heat source along a stretching sheet has been investigated numerically. To obtain non - similar equations, continuity, momentum, energy, and concentration equations have been non-dimensionalized by usual transformation. Results: The non-similar solutions are considered here which depend on the Prandtl number, Eckert number, Lewis number, Brownian motion parameter , thermophoresis parameter and Grashof number. The obtained equations have been solved by an explicit finite difference method with stability and convergence analysis. This method is a powerful technique for obtaining the approximate solution of the boundary value problems. The velocity, temperature, and concentration profiles are shown in graphically for different time steps and for the different values of the parameters.
Keywords: Nanofluid, Stretching surface, Viscous dissipation.
*Corresponding autho: | Noor Alam 2* | & Copyright Author © 2020: | Shahmin Akter 1 |. All Rights Reserved. All articles published in American Journal of Innovative Research and Applied Sciences are the property of Atlantic Center
Research Sciences, and is protected by copyright laws CC-BY. See: http://creativecommons.org/licenses/by-nc/4.0/.
Authors Contact
*Correspondant author and authors Copyright © 2020:
| Shahmin Akter 1 | M Enamul Karim 1 |and | Noor Alam 2* |
Affiliation.
1. Comilla University | Department of Mathematics | Cumilla-3506 | Bangladesh |
2. Primeasia University | Department of Basic Science | Dhaka-1213 | Bangladesh |
This article is made freely available as part of this journal's Open Access: ID | Noor–Ref2-ajira011020 |
*Correspondant author and authors Copyright © 2020:
| Shahmin Akter 1 | M Enamul Karim 1 |and | Noor Alam 2* |
Affiliation.
1. Comilla University | Department of Mathematics | Cumilla-3506 | Bangladesh |
2. Primeasia University | Department of Basic Science | Dhaka-1213 | Bangladesh |
This article is made freely available as part of this journal's Open Access: ID | Noor–Ref2-ajira011020 |
NUMERICAL MODELING ON AN UNSTEADY LAMINAR BOUNDARY LAYER FLOW USING NANO FLUID WITH VISCOUS DISSIPATION EFFECT AND HEAT SOURCE THROUGH A STRETCHING SHEET
| Shahmin Akter 1 | M Enamul Karim 1 | and | Noor Alam 2* |. Am. J. innov. res. appl. sci. 2020; 11(4):73-82.
| PDF FULL TEXT | | XML FILE | | September 09, 2020 | | Accepted | September 23, 2020 | | Published | October 23, 2020 |
| Shahmin Akter 1 | M Enamul Karim 1 | and | Noor Alam 2* |. Am. J. innov. res. appl. sci. 2020; 11(4):73-82.
| PDF FULL TEXT | | XML FILE | | September 09, 2020 | | Accepted | September 23, 2020 | | Published | October 23, 2020 |