Numerical Investigation on Heat Transfer Enhancement in Microchannels Through Micro-orifice Induced Cavitation-Reference-Cited by-同舟云学术

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Numerical Investigation on Heat Transfer Enhancement in Microchannels Through Micro-orifice Induced Cavitation

Published:2022-09-29 Issue: Volume: Page:703-717
ISSN:2195-4356
Container-title:Materials, Design and Manufacturing for Sustainable Environment
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Author:

Avinash Kumar R.,Kavitha M.,Manoj Kumar P.,Gnanasrenivash N. B.,Balaji M.,Sathavu Srinivash S.,Sudeendra R.

Publisher

Springer Nature Singapore

Link

https://link.springer.com/content/pdf/10.1007/978-981-19-3053-9_54

Reference10 articles.

1. Li T, Liu B, Zhou J, Xi W, Huai X, Zhang H (2020) A comparative study of cavitation characteristics of nano-fluid and deionized water in micro-channels. Micro Mach 11(3):310

2. Zhi-jiangJin Z-j, Gao Z-x, Li X-j, Qian J-y (2019) Cavitating flow through a micro-orifice. Micro Mach 10(3):191

3. Ghorbani M, Yildiz M, Gozuacik D, Kosar A (2016) Cavitating nozzle flows in micro and minichannelsunder the effect of turbulence. J Mech Sci Technol 30(6):2565–2581

4. Hosbach M, Gitau S, Sander T, Leuteritz U, Pfitzner M (2019) Effect of taper, pressure and temperature on cavitation extent and dynamics in micro-channels. Exp Thermal Fluid Sci 108:25–38

5. Schneider B, Kosar A, Peles Y (2007) Hydrodynamic cavitation and boiling in refrigerant (R-123) flow inside microchannels. Int J Heat Mass Transf 50(13–14):2838–2854

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