Investigation of Two-Dimensional Viscoelastic Fluid with Nonuniform Heat Generation over Permeable Stretching Sheet with Slip Condition
Author
Rasheed, Haroon; Khan, Zeeshan; Islam, Saeed; Khan, Ilyas; García Guirao, Juan Luis; [et al.]Knowledge Area
Matemática AplicadaSponsors
This study was supported by King Saud University, Riyadh, Saudi Arabia (Project number RSP-2019/33).Realizado en/con
Sarhad University of Science and Information Technolog; Abdul Wali Khan University Mardan; Ton Duc Thang University; Kohat University of Science and TechnologyPublication date
2019-12-04Publisher
Wiley, HindawiBibliographic Citation
Haroon Ur Rasheed, Zeeshan Khan, Saeed Islam, Ilyas Khan, Juan L. G. Guirao, Waris Khan, "Investigation of Two-Dimensional Viscoelastic Fluid with Nonuniform Heat Generation over Permeable Stretching Sheet with Slip Condition", Complexity, vol. 2019, Article ID 3121896, 8 pages, 2019. https://doi.org/10.1155/2019/3121896Peer review
SiKeywords
Homotopy analysis methodconvected-maxwell fluid
Boundary-layer-flow
Porous-medium
Forced-convection
Mass-transfer
Natural-convection
MHD flow
Walls
Field
Abstract
Here, in this research article, we have investigated an incompressible viscoelastic fluid flow over a uniform stretching surface sheet along with slip boundary conditions in the presence of porous media. The partial differential equations which govern the fluid flow are changed into ordinary differential equations through suitable similarity transformation variables. Finally, the transformed ordinary differential equations are solved with the help of a seminumerical technique known as the homotopy analysis method (HAM). The uniqueness of our study is not only to analyze and carry out the effect of the elastic parameter but also to account for viscous dissipation which is important in the case of optically transparent flow. The novel effects for the parameters which affect the flow and heat transfer, such as the Eckert number, porous medium parameter, and the velocity slip parameter, are studied through graphs. Also, the convergence analysis for the proposed method is addressed. Additio ...
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