Effects of thermal radiation and heat generation on the mechanical properties of unsteady continuous moving surface in a Nanofluid in the presence of suction/injection
American Journal of Mechanical Engineering and Automation • 2014
Publication Information
Authors
M.S. abdelwahed
Keywords
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Journal
American Journal of Mechanical Engineering and Automation
Publisher
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Volume
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Issue
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Pages
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publication.type
International
Paper Link
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Supplementary Materials
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Abstract
The effect of thermal radiation, heat generation, suction/injection, Nanoparticles type, and Nanoparticles volume fraction
on heat transfer characteristics and mechanical properties of unsteady moving surface embedded into cooling medium
consists of water with Cu, Ag or Al2O3 particles has been investigated. Similarity equations are obtained through the
application of similarity transformation techniques. These equations are solved numerically to obtain the velocity,
temperature in the respective boundary layer.
on heat transfer characteristics and mechanical properties of unsteady moving surface embedded into cooling medium
consists of water with Cu, Ag or Al2O3 particles has been investigated. Similarity equations are obtained through the
application of similarity transformation techniques. These equations are solved numerically to obtain the velocity,
temperature in the respective boundary layer.
Staff Members - Benha University