Litcius/Paper detail

A novel empirical equation for the effective viscosity of nanofluids based on theoretical and empirical results

Mohamad Klazly, Gabriella Bognár

2022International Communications in Heat and Mass Transfer61 citationsDOIOpen Access PDF

Abstract

In practice, nanofluids' thermal conductivity and viscosity are the most important parameters in engineering applications. Viscosity affects pumping performance. Theoretical viscosity correlations are widely used in numerical studies. However, existing correlations show an underestimation of the actual viscosity compared to the measurement results. Although many nanofluid viscosity correlations have been developed, there is no generally accepted correlation. This paper reviews the theoretical, numerical, and experimental viscosity correlations and proposes a new correlation based on an analysis of approximately 1200 experimental and 4000 theoretical data tested for about 50 types of nanofluids in the temperature range 273–333 K and particle diameters 2–300 nm. The studied volume fraction range for the nanofluids was up to 10%. Existing correlations take into account the impact of up to two to three parameters The new viscosity correlation is proposed to predict the effective viscosity of nanofluids based on regression analysis of theoretical and experimental viscosity results, and it considers several factors that significantly affect the effective viscosity of nanofluids, such as nanoparticle diameter, density, temperature, types of nanoparticles, and base fluid.

Topics & Concepts

NanofluidViscosityMaterials scienceThermodynamicsThermal conductivityRange (aeronautics)Volume fractionTemperature dependence of liquid viscosityRelative viscosityThermalPhysicsComposite materialNanofluid Flow and Heat TransferHeat Transfer and OptimizationRheology and Fluid Dynamics Studies