Natural convection from heated cylinder

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Natural convection from a horizontal cylinder plays a crucial role in many heat transfer related problems ranging from heat exchangers, solar heating systems, cooling of electronic packages, to cooling of overhead power lines. One of the first studies of convective heat transfer from circular cylinders goes back to 1892 when Ayrton and Kilgour investigated the thermal emission of thin, long horizontal wires [1]. Several similar experiments followed [2], and in 1975 Morgan collected experimental data in a comprehensive review paper [3]. Based on the collected data Morgan introduced the correlations between Grashof, Prandtl and Nusselt numbers [3]. In other words, he presented relationships between the power of cooling in dependence on the material properties and the temperature difference between the cylinder and the ambient, which still serve as a basis in operative models for predicting the temperature of overhead power lines [4, 5]. There are many other similar studies where authors investigate the heat transfer from the heated cylinder due to the natural or forced convection under different conditions [2, 6, 7].

[1] Ayrton, W. & Kilgour, H., The thermal emissivity of thin wires in air. . Philos TR Soc A, 183, pp. 371–405, 1892.

[2] Boetcher, S. K. S., Natural Convection from Circular Cylinders, Springer: Daytona Beach, 2014.

[3] Morgan, V., The overall convective heat transfer from smooth circular cylinders. Advances in Heat Transfer, 1, pp. 199-264, 1975.

[4] Guide for Thermal Rating Calculations of Overhead Lines. pp. 2014.

[5] IEEE Standard for Calculating the Current-Temperature Relationship of Bare Overhead Conductors. pp. 2014.

[6] Atmane, Mohamed A., Chan, Victor S.S. & Murray, Darina B., Natural convection around a horizontal heated cylinder: The effects of vertical confinement. International Journal of Heat and Mass Transfer, 46, pp. 3661-3672, 2003.

[7] Cesinia, G. , Paroncinia, M. , Cortellab G. & Manzanb, M., Natural convection from a horizontal cylinder in a rectangular cavity. International Journal of Heat and Mass Transfer, 42, pp. 1801-1811, 1999.

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