Experimental study of entropy generation during condensation in inclined enhanced tubes
Author:
Publisher
Elsevier BV
Subject
Fluid Flow and Transfer Processes,General Physics and Astronomy,Mechanical Engineering
Reference45 articles.
1. Heat transfer optimization through new form of pin type of finned tube heat exchangers using the exergy and energy analysis;Abu-Hamdeh;International Journal of Refrigeration,2020
2. Convective condensation heat transfer of R134a in tubes at different inclination angles;Adelaja;International Journal of Green Energy,2016
3. Experimental study of the pressure drop during condensation in an inclined smooth tube at different saturation temperatures;Adelaja;International Journal of Heat and Mass Transfer,2017
4. Condensation Heat Transfer Coefficients and Enhancements of R134a in Smooth and Microfin Inclined Tubes;Adelaja;Energy Procedia,2019
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2. Numerical study of heat transfer, pressure drop and entropy production characteristics in inclined heat exchangers with uniform heat flux using mango bark/CO2 nanofluid;Heliyon;2023-08
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4. Effect of inclination angle on the thermal-hydraulic characteristics and entropy generation of Al2O3–water nanofluid for in-tube turbulent flow;World Journal of Engineering;2023-04-04
5. Performance analysis of micro-fin tubes compared to smooth tubes as a heat transfer enhancement technique for flow condensation;Energy Nexus;2022-12
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