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Entropy Generation Analysis of Power-Law Non-Newtonian Fluid Flow Caused by Micropatterned Moving Surface

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  • M. H. Yazdi
  • I. Hashim
  • A. Fudholi
  • P. Ooshaksaraei
  • K. Sopian

Abstract

In the present study, the first and second law analyses of power-law non-Newtonian flow over embedded open parallel microchannels within micropatterned permeable continuous moving surface are examined at prescribed surface temperature. A similarity transformation is used to reduce the governing equations to a set of nonlinear ordinary differential equations. The dimensionless entropy generation number is formulated by an integral of the local rate of entropy generation along the width of the surface based on an equal number of microchannels and no-slip gaps interspersed between those microchannels. The velocity, the temperature, the velocity gradient, and the temperature gradient adjacent to the wall are substituted into this equation resulting from the momentum and energy equations obtained numerically by Dormand-Prince pair and shooting method. Finally, the entropy generation numbers, as well as the Bejan number, are evaluated. It is noted that the presence of the shear thinning (pseudoplastic) fluids creates entropy along the surface, with an opposite effect resulting from shear thickening (dilatant) fluids.

Suggested Citation

  • M. H. Yazdi & I. Hashim & A. Fudholi & P. Ooshaksaraei & K. Sopian, 2014. "Entropy Generation Analysis of Power-Law Non-Newtonian Fluid Flow Caused by Micropatterned Moving Surface," Mathematical Problems in Engineering, Hindawi, vol. 2014, pages 1-16, July.
  • Handle: RePEc:hin:jnlmpe:141795
    DOI: 10.1155/2014/141795
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