4.7 Article

Prediction of viscosity of several alumina-based nanofluids using various artificial intelligence paradigms - Comparison with experimental data and empirical correlations

Journal

POWDER TECHNOLOGY
Volume 323, Issue -, Pages 495-506

Publisher

ELSEVIER
DOI: 10.1016/j.powtec.2017.10.038

Keywords

Nanofluids; Viscosity; Intelligence approaches; Empirical correlations; Predictive accuracy

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Nanofluids have recently been considered as one of the most popular working fluid in heat transfer and fluid mechanics. Viscosity is one of the most important thermo-physical properties that influence both momentum and heat transported by the nanofluids. Accurate estimation of this parameter is required for investigation the heat transfer performance of nanofluids. Therefore, in this study 1 - the most influential variables on viscosity of the nanofluids are determined 2 - various artificial intelligence (AI) models are developed for prediction of viscosity of alumina nanopartide in various base fluids, 3 - by comparing predictive accuracy of the developed models and available empirical correlations, the best one is selected. Correlation matrix analyses confirmed that the reduced pressure, invers of reduced temperature, acentric factor of the base fluids, and diameter and volume concentration of the nano particles in base fluids are the most influential independent variables on viscosity of nanofluids. Various statistical indices including mean square errors (MSE), root mean square errors (RMSE), average absolute relative deviation percent (AARD%), and regression coefficient (R-2) are used for numerical evaluation of accuracy of various models. The results demonstrate that predictive accuracy of the multi-layer perceptron neural network (MLPNN) outperforms other intelligence/empirical models, and therefore it was considered as the best approach for the considered task. This model predicted the viscosity of various alumina-based nanofluids with overall MSE = 0.1422, RMSE = 0.3797, AARD = 4.13%, and R-2 = 0.99947. Based on our best knowledge, this study is the only work that compared the performance of various intelligent/empirical paradigms for estimation of viscosity of various alumina-based nanofluids. (C) 2017 Elsevier B.V. All rights reserved.

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