Journal of Theoretical
and Applied Mechanics
53, 3, pp. 505-518, Warsaw 2015
DOI: 10.15632/jtam-pl.53.3.505

Application of the method of fundamental solutions to the analysis of fully developed laminar flow and heat transfer

Krzysztof Mrozek, Magdalena Mierzwiczak
In this study, fully developed laminar flow and heat transfer in an internally longitudinally finned tube are investigated through application of the meshless method. The flow is assumed to be both hydrodynamically and thermally developed, with a uniform outside-the-wall temperature. The governing equations have been solved numerically by means of the method of fundamental solutions in combination with the method of particular solutions to obtain the velocity and temperature distributions. The advantage of the proposed approach is that it does not require mesh generation on the considered domain or its boundary, but uses only a cloud of arbitrarily located nodes. The results, comprising the friction factor as well as the Nusselt number, are presented for varied length values and fin numbers, as well as the thermal conductivity ratio between the tube and the flowing fluid. The results show that the heat transfer improves significantly if more fins are used.
Keywords: laminar flow, finned tube, heat transfer enhancement, method of fundamental solutions