Comprehensive Review on the Stability of TiO2-Al2O3 Hybrid Nanofluids

  • Pratik T Patil, M. J. Sable, Krishna Shrivastava
Keywords: TiO2-Al2O3 hybrid nanofluids, Accuracy, Precision and Stability

Abstract

This work offers a thorough examination of TiO2-Al2O3 hybrid nanofluids, emphasizing the precision and correctness of the numerous investigations carried out to assess their performance and stability. The precision numbers range from 84% to 89.50%, while the accuracy metrics range from 82% to 92%. These variations reflect the various approaches that the researchers have used. With the strongest precision and the highest accuracy, the Guo Wenjie et al. (2024) study stands out as having a well-optimized methodology. On the other hand, Shelton John et al. (2023) recorded the lowest precision and accuracy, indicating problems with the consistency of their experiments. Other research' findings, such as those of Murtadha Talib K. (2023), Najib N. A. et al. (2023), and Urmi Wajiha et al. (2023), show that there is a need for continuous improvement in experimental protocols as well as a combination of strengths and places for improvement. The results highlight how crucial it is to strike a compromise between precision and accuracy in order to guarantee consistent and repeatable results when analyzing TiO2-Al2O3 hybrid nanofluids.

Author Biography

Pratik T Patil, M. J. Sable, Krishna Shrivastava

1Pratik T Patil, 2Dr. M. J. Sable, 3Dr. Krishna Shrivastava,

1Research Scholar, Department of Mechanical Engineering, North Maharashtra University Jalgaon. Email- pratikpatil177@gmail.com

2Professor, Department of Mechanical Engineering, COEP Technological University, Pune. Email-mjsable6671@gmail.com

3Associate Professor, Department of Mechanical Engineering, SSBT, CoET, Jalgaon. Email - krishnashrivastava38@gmail.com

Published
2024-02-04
Issue
Volume 2024
Section
Regular Issue

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