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Thermal Radiation and Buoyancy Effects on Heat and Mass Transfer over a Semi‐Infinite Stretching Surface with Suction and Blowing

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  • S. Shateyi

Abstract

This study sought to investigate thermal radiation and buoyancy effects on heat and mass transfer over a semi‐infinite stretching surface with suction and blowing. Appropriate transformations were employed to transform the governing differential equations to nonsimilar form. The transformed equations were solved numerically by an efficient implicit, iterative finite‐difference scheme. A parametric study illustrating the influence of wall suction or injection, radiation, Schmidt number and Grashof number on the fluid velocity, temperature and concentration is conducted. We conclude from the study that the flow is appreciably influenced by thermal radiation, Schmidt number, as well as fluid injection or suction.

Suggested Citation

  • S. Shateyi, 2008. "Thermal Radiation and Buoyancy Effects on Heat and Mass Transfer over a Semi‐Infinite Stretching Surface with Suction and Blowing," Journal of Applied Mathematics, John Wiley & Sons, vol. 2008(1).
  • Handle: RePEc:wly:jnljam:v:2008:y:2008:i:1:n:414830
    DOI: 10.1155/2008/414830
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    Cited by:

    1. Xiang-Long Liu & Guang-Cai Gong & Heng-Sheng Cheng & Li-Xing Ding, 2012. "Airflow and Heat Transfer in the Slot‐Vented Room with Radiant Floor Heating Unit," Journal of Applied Mathematics, John Wiley & Sons, vol. 2012(1).
    2. Basant K. Jha & Umaru Mohammed & Abiodun O. Ajibade, 2013. "Dufour and Soret Effects on Melting from a Vertical Plate Embedded in Saturated Porous Media," Journal of Applied Mathematics, John Wiley & Sons, vol. 2013(1).
    3. S. S. Motsa & S. Shateyi, 2012. "The Effects of Chemical Reaction, Hall, and Ion‐Slip Currents on MHD Micropolar Fluid Flow with Thermal Diffusivity Using a Novel Numerical Technique," Journal of Applied Mathematics, John Wiley & Sons, vol. 2012(1).

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