Download Advances in new heat transfer fluids : from numerical to by Alina Adriana Minea PDF

By Alina Adriana Minea

ISBN-10: 1498751857

ISBN-13: 9781498751858

Warmth move enhancement has obvious speedy improvement and common use in either traditional and rising technologies. Improvement of warmth move fluids calls for a stability among experimental and numerical paintings in nanofluids and new refrigerants. spotting the uncertainties in improvement of latest warmth move fluids, Advances in New warmth move Fluids: From Numerical to Experimental Techniques includes either theoretical and functional assurance

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Enhancement of heat transfer using nanofluids—An overview. Renewable and Sustainable Energy Reviews 14(2):629–641. Gupta, M, N Arora, R Kumar, S Kumar, and N Dilbaghi. 2014. A comprehensive review of experimental investigations of forced convective heat transfer characteristics for various nanofluids. International Journal of Mechanical and Materials Engineering 9(1):1–21. Influence of Metal and Metal Oxide Nanofluid Properties on Forced Convection Heat Transfer 23 Hamilton, RL and OK Crosser. 1962.

The first law analysis is accomplished by the Nusselt number, the friction factor, the Euler number, and the performance evaluation criterion (PEC), and this last coefficient can be defined in two ways, as will be shown. The second law analysis is performed by the entropy generation method (EGM). In the present work, the second law analysis by the EGM is employed in order to obtain comparisons to carry out some optimal configurations for forced convection in ducts and tubes with different thermal boundary conditions.

5 for metal oxide nanofluids. 92% volume concentration at a temperature of 30°C with 22 nm particle size. Further increase in the concentration of CuO nanofluid does not aid in heat transfer enhancement for the specified conditions. 5 applicable for turbulent conditions, which has been shown for Cu, TiO2, and Fe3O4 nanofluids. 11 for different Graetz numbers. 8 Al2O3/water Nguyen et al. 2007 TiO2/water Turgut et al. 7 Sharma et al. 8 Viscosity, mPa. 8 for metal oxide nanofluids. 4 Variation in property enhancement ratio with temperature for laminar flow condition.

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