Viscosity and rheological behavior of Al2O3-Fe2O3/water-EG based hybrid nanofluid: A new correlation based on mixture ratio

•Effect of Al2O3-Fe2O3 ratios on the rheological behaviour and dynamic viscosity of hybrid nanofluid are investigated.•Hybrid nanofluid for all compositions of Al2O3-Fe2O3 indicates a Newtonian fluid characteristic.•Bayesian approach was used to optimize the ANN model.•A great correlation model with...

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Bibliographic Details
Published in:Journal of molecular liquids 2023-04, Vol.375, p.121365, Article 121365
Main Authors: Vicki Wanatasanappan, V., Kumar Kanti, Praveen, Sharma, Prabhakar, Husna, N., Abdullah, M.Z.
Format: Article
Language:English
Subjects:
Al2O3-Fe2O3
ANN
Bayesian optimization
Hybrid nanofluid
Machine learning
Rheological behaviour
Viscosity
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Summary:•Effect of Al2O3-Fe2O3 ratios on the rheological behaviour and dynamic viscosity of hybrid nanofluid are investigated.•Hybrid nanofluid for all compositions of Al2O3-Fe2O3 indicates a Newtonian fluid characteristic.•Bayesian approach was used to optimize the ANN model.•A great correlation model with values of more than 99.99% The present study is a pure experimental investigation of the viscosity and rheological properties of the Al2O3-Fe2O3 hybrid nanofluid and the development of a new correlation. The main purpose of the study is to evaluate the effect of the Al2O3-Fe2O3 mixture ratio on the viscosity property and develop a correlation for the viscosity prediction. The Al2O3 and Fe2O3 were first characterized using XRD diffraction and the FESEM technique. The nanofluid was prepared using a two-step method using base fluid consisting of water and ethylene glycol mixture at 60/40 ratios. Five different Al2O3-Fe2O3 nanoparticle compositions were investigated experimentally for the viscosity and rheological properties at temperatures between 0 and 100 °C. The experimental data shows that the Al2O3-Fe2O3 composition of 40/60 resulted in the highest viscosity value at all temperatures investigated, while the 60/40 composition recorded the lowest viscosity value. Besides, the increase in temperature of nanofluid shows a maximum viscosity reduction of 87.2 % as the temperature is increased from 0 to 100 °C. Also, the rheological analysis on a hybrid nanofluid for all compositions of Al2O3-Fe2O3 indicates a Newtonian fluid characteristic. The experimental research data was utilized to create an artificial neural network (ANN)-based architecture. An autoregressive method called the Bayesian approach was adopted for training hyperparameters. During model training, the autoregressive technique assisted in achieving outstanding correlation values of more than 99.99 % with minimal mean squared errors as low as 0.000036.
ISSN:0167-7322
DOI:10.1016/j.molliq.2023.121365