TY - JOUR
AU - 
AB - The analysis of the heat transfer of the moving porous radial fin with natural convection and radiation effect has been carried out. Here, Newton's law of cooling, Fourier's law of conduction and Stefan-Boltzmann's law of radiation were considered to formulate the fin model. The generated governing equation was solved numerically using shooting technique based the fourth-fifth order Runge Kutta Fehlberg method. The resulting dimensionless parameters affecting the thermal performance of the fin were analyzed through the graphs. It is observed that, with the improvement of the convective parameter, there is a greater heat transfer from the surface of the fin. Keywords: Natural convection; radiation; thermal analysis; radial fin; moving porous fin. 1. INTRODUCTION The fin is the extended surface, which porous fin, Hatami and Ganji [6] used Least basically aims to increase the rate of heat Square Method (LSM) and fourth order transfer between the surface and the R u n g e-Kutta method. They also examined fin environment. The annular fin is used in the efficiency. Hatami et al. [7] have confirmed liquid gas heat exchanger system. In many from the results that, in order to get high engineering applications like aircraft engines, refrigeration efficiency, Lewis number should 
TI - Numerical Investigation of Natural Convection and Radiation in a Moving Radial Porous Fin
JF - JNNCE Journal of Engineering and Management
DO - 10.37314/jjem.2020.040101
DA - 2020-11-30
UR - https://www.deepdyve.com/lp/unpaywall/numerical-investigation-of-natural-convection-and-radiation-in-a-3lfogPiOUZ
DP - DeepDyve
ER -