Two-step numerical simulation of the heat transfer from a flat plate to a swirling jet flow from a rotating pipe
International Journal of Numerical Methods for Heat & Fluid Flow
ISSN: 0961-5539
Article publication date: 16 December 2019
Issue publication date: 15 January 2020
Abstract
Purpose
Impinging jets have been widely studied, and the addition of swirl has been found to be beneficial to heat transfer. As there is no literature on Reynolds-averaged Navier Stokes equations (RANS) nor experimental data of swirling jet flows generated by a rotating pipe, the purpose of this study is to fill such gap by providing results on the performance of this type of design.
Design/methodology/approach
As the flow has a different behaviour at different parts of the design, the same turbulent model cannot be used for the full domain. To overcome this complexity, the simulation is split into two coupled stages. This is an alternative to use the costly Reynold stress model (RSM) for the rotating pipe simulation and the SST k-ω model for the impingement.
Findings
The addition of swirl by means of a rotating pipe with a swirl intensity ranging from 0 up to 0.5 affects the velocity profiles, but has no remarkable effect on the spreading angle. The heat transfer is increased with respect to a non-swirling flow only at short nozzle-to-plate distances H/D < 6, where H is the distance and D is the diameter of the pipe. For the impinging zone, the highest average heat transfer is achieved at H/D = 5 with swirl intensity S = 0.5. This is the highest swirl studied in this work.
Research limitations/implications
High-fidelity simulations or experimental analysis may provide reliable data for higher swirl intensities, which are not covered in this work.
Practical implications
This two-step approach and the data provided is of interest to other related investigations (e.g. using arrays of jets or other surfaces than flat plates).
Originality/value
This paper is the first of its kind RANS simulation of the heat transfer from a flat plate to a swirling impinging jet flow issuing from a rotating pipe. An extensive study of these computational fluid dynamics (CFD) simulations has been carried out with the emphasis of splitting the large domain into two parts to facilitate the use of different turbulent models and periodic boundary conditions for the flow confined in the pipe.
Keywords
Acknowledgements
The first author acknowledges his support from the European Community’s Seventh Framework Programme (FP7) Marie Curie AeroTraNet 2 Action, under the grant number PITN-GA-2012-317142. The second author thanks the III Plan Propio at University of Málaga, which supported his visit to the University of Greenwich in Summer 2014.
Citation
Granados-Ortiz, F.-J., Ortega-Casanova, J. and Lai, C.-H. (2020), "Two-step numerical simulation of the heat transfer from a flat plate to a swirling jet flow from a rotating pipe", International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 30 No. 1, pp. 143-175. https://doi.org/10.1108/HFF-04-2019-0343
Publisher
:Emerald Publishing Limited
Copyright © 2019, Emerald Publishing Limited