Convective heat transfer on a flat target surface impinged by pulsating jet with an additional transmission chamber
Author:
Publisher
Springer Science and Business Media LLC
Subject
Fluid Flow and Transfer Processes,Condensed Matter Physics
Link
http://link.springer.com/content/pdf/10.1007/s00231-019-02702-1.pdf
Reference46 articles.
1. Carlomagno GM, Ianiro A (2014) Thermo-fluid-dynamics of submerged jets impinging at short nozzle-to-plate distance: a review. Exp Thermal Fluid Sci 58:15–35
2. Lee JH, Lee SJ (2000) The effect of nozzle configuration on stagnation region heat transfer enhancement of axisymmetric jet impingement. Int J Heat Mass Transf 43:3497–3509
3. Gulati P, Katti V, Prabhu SV (2009) Influence of the shape of the nozzle on the local heat transfer distribution between smooth flat surface and impinging air jet. Int J Therm Sci 48:602–617
4. Herrero MR, Buchlin JM (2011) Jet impingement heat transfer from lobed nozzles. Int J Therm Sci 20:1199–1206
5. Vinze R, Chandel S, Limaye MD, Prabhu SV (2016) Local heat transfer distribution between smooth flat surface and impinging incompressible air jet from a chevron nozzle. Exp Thermal Fluid Sci 78:124–136
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