Journal
JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY
Volume 143, Issue 1, Pages 351-361Publisher
SPRINGER
DOI: 10.1007/s10973-019-09138-z
Keywords
CQDs nanofluids; Thermal conductivity; Viscosity; Density; Correlation; Neural network
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This study investigates the effects of carbon quantum dots (CQDs) as additives on the thermophysical properties of nanofluids. The presence of CQDs significantly enhances the viscosity and thermal conductivity of nanofluids. Empirical equations and artificial neural network models are developed to accurately predict the properties of nanofluids, showing excellent agreement with experimental data.
This paper reports an experimental investigation on the viscosity, thermal conductivity and density of water, ethylene glycol, and water-ethylene glycol mixture (60:40 vol%)-based carbon quantum dots (CQDs) nanofluids. Stable nanofluids were prepared by two-step technique at room temperature, and the thermophysical properties of them were measured at various temperatures and volume fractions (0.2-1 vol%). The presence of CQDs enhances the viscosity and thermal conductivity of nanofluids noticeably. The maximum thermal conductivity enhancement reaches up to 8.2%, 25.1%, and 13.3% for the nanofluid containing 1% CQDs at 50 degrees C in ethylene glycol, water, and water-ethylene glycol mixture (60:40) as base fluids, respectively. In addition, the viscosity of each solution was measured, and the results show that it increases with increasing volume fractions of CQDs nanoparticles and decreased with increasing temperature. Additionally, to correlate viscosity, thermal conductivity, and density of nanofluids, some new empirical equations are derived and compared with experimental data and other theoretical models. Besides, three artificial neural network models are applied to predict the viscosity, thermal conductivity, and density of nanofluids and they are in excellent agreement with experimental data with the AAD = 1.29% andR(2) = 0.99994 for viscosity, AAD = 0.85% andR(2) = 0.99867 for thermal conductivity, and AAD = 0.01% andR(2) = 0.99999 for density of nanofluids.
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