Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study

A. Chitsazan, G.H. Klepp, B. Glasmacher, International Journal of Heat and Technology 40 (2022) 137–144.

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Zeitschriftenaufsatz (wiss.) | Veröffentlicht | Englisch
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Abstract
The effect of jet arrangement, jet Re number, jet exit angle (θ), the nozzle-to-surface distance (H/d), jet-to-jet spacing (S/d) on the heat transfer, and pressure force performance from multiple impinging round jets on a moving flat surface have been numerically evaluated. There is a minor difference between in-line and staggered arrangements on a moving flat surface. The averaged Nusselt number on a moving flat surface reduces with an increase in the relative velocity (VR). The surface motion effects become more pronounced on the local Nu distribution at low Re, small S/d, large H/d, and angled jets for a moving flat surface. The pressure force coefficient on a moving flat surface is highly dependent on the H/d and θ but relatively insensitive to the VR, Re, and S/d within the range examined. Two correlations are developed and validated for the average Nu and force coefficient and the agreement between the CFD and correlation is found to be reasonable.
Erscheinungsjahr
Zeitschriftentitel
International Journal of Heat and Technology
Band
40
Zeitschriftennummer
1
Seite
137-144
ISSN
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Chitsazan A, Klepp GH, Glasmacher B. Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study. International Journal of Heat and Technology. 2022;40(1):137-144. doi:10.18280/ijht.400116
Chitsazan, A., Klepp, G. H., & Glasmacher, B. (2022). Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study. International Journal of Heat and Technology, 40(1), 137–144. https://doi.org/10.18280/ijht.400116
Chitsazan A, Klepp GH and Glasmacher B (2022) Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study. International Journal of Heat and Technology 40, 137–144.
Chitsazan, Ali, Georg Heinrich Klepp, and Birgit Glasmacher. “Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study.” International Journal of Heat and Technology 40, no. 1 (2022): 137–44. https://doi.org/10.18280/ijht.400116.
Chitsazan, Ali, Georg Heinrich Klepp und Birgit Glasmacher. 2022. Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study. International Journal of Heat and Technology 40, Nr. 1: 137–144. doi:10.18280/ijht.400116, .
Chitsazan, Ali ; Klepp, Georg Heinrich ; Glasmacher, Birgit: Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study. In: International Journal of Heat and Technology Bd. 40. Bologna, Pitagora (2022), Nr. 1, S. 137–144
A. Chitsazan, G.H. Klepp, B. Glasmacher, Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study, International Journal of Heat and Technology. 40 (2022) 137–144.
A. Chitsazan, G. H. Klepp, and B. Glasmacher, “Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study,” International Journal of Heat and Technology, vol. 40, no. 1, pp. 137–144, 2022, doi: 10.18280/ijht.400116.
Chitsazan, Ali, et al. “Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study.” International Journal of Heat and Technology, vol. 40, no. 1, 2022, pp. 137–44, https://doi.org/10.18280/ijht.400116.
Chitsazan, Ali/Klepp, Georg Heinrich/Glasmacher, Birgit: Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study, in: International Journal of Heat and Technology 40 (2022), H. 1,  S. 137–144.
Chitsazan A, Klepp GH, Glasmacher B. Effect of Surface Motion on Heat Transfer and Pressure Force from Multiple Impinging Jets– A Numerical Study. International Journal of Heat and Technology. 2022;40(1):137–44.

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