Dynamic viscosity of Titania nanotubes dispersions in ethylene glycol/water-based nanofluids: Experimental evaluation and predictions from empirical correlation and artificial neural network

Ali, A. and Ilyas, S.U. and Garg, S. and Alsaady, M. and Maqsood, K. and Nasir, R. and Abdulrahman, A. and Zulfiqar, M. and Mahfouz, A.B. and Ahmed, A. and Ridha, S. (2020) Dynamic viscosity of Titania nanotubes dispersions in ethylene glycol/water-based nanofluids: Experimental evaluation and predictions from empirical correlation and artificial neural network. International Communications in Heat and Mass Transfer, 118.

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Abstract

The emerging applications of nanofluids in heat transfer makes it imperative to study their viscous properties. The knowledge and assessment of physical properties with changes in concentration and temperature are essential for the practical applications of nanofluids. The first part of the current study is the synthesis of Titania (TiO2) nanotubes via a conventional method. The experimental investigation of viscosity behavior of TiO2 nanotubes dispersed in ethylene glycol/water-based nanofluid by different process parameters such as the mass concentration of nanotubes (0 to 1), temperature (25�65 °C) and shear rate (150�500 s�1). The results showed a 30 increase in viscosity at 55 °C by increasing the mass concentration of nanotubes from 0 to 1, while 22 increase was observed at 25 °C. In the second part, a multivariable correlation, and Artificial Neural Network (ANN) have been used to predict the viscosity at varying temperatures and shear rates based on the experimental data. Statistical analyses were done to investigate the accuracy of both empirical correlation and ANN modeling. It was observed from the results that ANN prediction is highly accurate, with 0.1981 AAD and 0.999 R2 as compared to empirical correlations (2.68 AAD, 0.9872 R2). © 2020 Elsevier Ltd

Item Type: Article
Impact Factor: cited By 17
Uncontrolled Keywords: Aliphatic compounds; Ethylene; Ethylene glycol; Forecasting; Heat transfer; Nanofluidics; Nanotubes; Oxide minerals; Polyols; Shear deformation; Titanium dioxide; Viscosity, Conventional methods; Dynamic viscosities; Emerging applications; Empirical correlations; Experimental evaluation; Experimental investigations; Multi-variable correlations; Varying temperature, Neural networks
Depositing User: Ms Sharifah Fahimah Saiyed Yeop
Date Deposited: 25 Mar 2022 02:51
Last Modified: 25 Mar 2022 02:51
URI: http://scholars.utp.edu.my/id/eprint/29780

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