Mohammad A.  Saraireh, 
    Natural Convection Heat Transfer from Extended Surfaces on Vertical Base,
    Journal of Engineering and Applied Sciences,
    Volume 13,Issue 17,
    2018,
    Pages 7298-7301,
    ISSN 1816-949x,
    jeasci.2018.7298.7301,
    (https://makhillpublications.co/view-article.php?doi=jeasci.2018.7298.7301)
    Abstract: Numerical simulation of natural convection heat transfer for extended rectangular fins on vertical base
is performed. A Computational Fluid Dynamics (CFD) Software Fluent is used to simulate a new computational
model. The simulation model is developed by taking only two extended fins and vertical base instead of
simulating the entire geometry. Heat transfer rate is predicted for different fin length, height and base
temperature. The results of simulations show that the rate of heat transfer depends on base temperature and
geometric parameters. The numerical simulation results compared with previous experimental results show very
good agreement. Therefore, the accuracy of the new computational model is verified.
    Keywords: Computational;fins;heat transfer;model;natural convection;accuracy