Effect of thermal radiation on laminar boundary layer flow over a permeable flat plate with Newtonian heating

Muhammad Khairul Anuar Mohamed, Mohd Zuki Salleh, Nor Aida Zuraimi Md Noar, Anuar Mohd Ishak

Research output: Contribution to journalArticle

Abstract

The laminar boundary layer flow over a permeable flat plat with the presence of thermal radiation and Newtonian heating is numerically studied. The non linear partial differential equations that governed the model are transformed to ordinary differential equations before being solved numerically by Runge-Kutta-Fehlberg (RKF) method using Maple software. The influenced and characteristic of pertinent parameters which are the Prandtl number, the suction/blowing parameter, the thermal radiation parameter and the conjugate parameter are analyzed and discussed. It is found that the presence of thermal radiation and blowing parameter has increased the value of wall temperature. Meanwhile, the trend is contrary with the suction effect.

Original languageEnglish
Article number012007
JournalJournal of Physics: Conference Series
Volume890
Issue number1
DOIs
Publication statusPublished - 21 Sep 2017

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laminar boundary layer
boundary layer flow
thermal radiation
flat plates
heating
blowing
suction
radiant heating
Runge-Kutta method
wall temperature
Prandtl number
partial differential equations
differential equations
computer programs
trends

ASJC Scopus subject areas

  • Physics and Astronomy(all)

Cite this

Effect of thermal radiation on laminar boundary layer flow over a permeable flat plate with Newtonian heating. / Anuar Mohamed, Muhammad Khairul; Salleh, Mohd Zuki; Md Noar, Nor Aida Zuraimi; Mohd Ishak, Anuar.

In: Journal of Physics: Conference Series, Vol. 890, No. 1, 012007, 21.09.2017.

Research output: Contribution to journalArticle

Anuar Mohamed, Muhammad Khairul ; Salleh, Mohd Zuki ; Md Noar, Nor Aida Zuraimi ; Mohd Ishak, Anuar. / Effect of thermal radiation on laminar boundary layer flow over a permeable flat plate with Newtonian heating. In: Journal of Physics: Conference Series. 2017 ; Vol. 890, No. 1.
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