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Self similar solutions for the flow and heat transfer of Powell-Eyring fluid over a moving surface in a parallel free stream

International Journal of Heat and Mass Transfer, Volume 65, Year 2013

This paper deals with the boundary layer flow and heat transfer of Powell-Eyring fluid over a continuously moving permeable surface in a parallel free stream. The governing boundary layer equations are transformed to self similar nonlinear ordinary differential equations using scaling group of transformations. Numerical results of the resulting equations are obtained using the Keller-box method. The effects of various governing parameters on the flow field are discussed and analyzed. A comparison is made with the existing literature. © 2013 Elsevier Ltd. All rights reserved.

Jalil, Mudassar H.F.Mohd
1. Germany, Heidelberg Universität Heidelberg
2. Pakistan, Islamabad Comsats University Islamabad
Asghar, Saleem
1. Pakistan, Islamabad Comsats University Islamabad
2. Saudi Arabia, Jeddah King Abdulaziz University
Imran, Syed Muhammad
1. Pakistan, Islamabad Comsats University Islamabad

AFRICAN RESEARCH NEXUS

Self similar solutions for the flow and heat transfer of Powell-Eyring fluid over a moving surface in a parallel free stream

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African Research Nexus

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AFRICAN RESEARCH NEXUS

Self similar solutions for the flow and heat transfer of Powell-Eyring fluid over a moving surface in a parallel free stream

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African Research Nexus

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