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

By Alina Adriana Minea

Warmth move enhancement has visible fast 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 recent warmth move fluids, Advances in New warmth move Fluids: From Numerical to Experimental Techniques includes either theoretical and sensible insurance

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International Journal of Heat and Mass Transfer 52(13–14):3187–3196. Kang, HUK, SH Kim, and JM Oh. 2006. Estimation of thermal conductivity of nanofluid using experimental effective particle volume. Experimental Heat Transfer 19(3):181–191. Karthikeyan, NR, J Philip, and B Raj. 2008. Effect of clustering on the thermal conductivity of nanofluids. Materials Chemistry and Physics 109(1):50–55. Kayhani, MH, H Soltanzadeh, MM Heyhat, M Nazari, and F Kowsary. 2012. Experimental study of convective heat transfer and pressure drop of TiO2/water nanofluid.

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Empirical correlating equations for predicting the effective thermal conductivity and dynamic viscosity of nanofluids. Energy Conversion and Management 52(1):789–793. Dalkilic, AS, N Kayaci, A Celen et al. 2012. Forced convective heat transfer of nanofluids—A review of the recent literature. Current Nanoscience 8(6):949–969. Das, SK, SUS Choi, and HE Patel. 2006. Heat transfer in nanofluids—A review. Heat Transfer Engineering 27(10):3–19. Das, SK, N Putra, P Thiesen, and W Roetzel. 2003. Temperature dependence of thermal conductivity enhancement for nanofluids.

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