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Augmentation of heat exchanger performance with hybrid nanofluids: Identifying research gaps and future indications-A review
Heat exchanger studies have been conducted for several decades since the beginning of
the development of heat transfer theories due to their widespread use in various industries …
the development of heat transfer theories due to their widespread use in various industries …
An imperative need for machine learning algorithms in heat transfer application: a review
M Ramanipriya, S Anitha - Journal of Thermal Analysis and Calorimetry, 2024 - Springer
In recent years, modeling of heat exchanger is increased due to transient prediction,
optimization, and performance calculations. Nanofluids play a vital role in increasing heat …
optimization, and performance calculations. Nanofluids play a vital role in increasing heat …
CFD approach to analyze entropy generation, heat transfer of perforated conical ring turbulators embedded in heat exchanger with biological ternary hybrid nanofluid
S Anitha - Numerical Heat Transfer, Part B: Fundamentals, 2024 - Taylor & Francis
Perforated conical rings greatly enhance heat transfer by causing flow disruption and
increasing fluid mixing. With minimal impact on friction loss, it improves heat transfer by …
increasing fluid mixing. With minimal impact on friction loss, it improves heat transfer by …
ENTROPY GENERATION AND HEAT TRANSFER PERFORMANCE OF CYLINDRICAL TUBE HEAT EXCHANGER WITH PERFORATED CONICAL RINGS: A …
Here we report a numerical analysis of a cylindrical tube heat exchanger equipped with
perforated conical rings. This study reports entropy generation, energy consumption, and …
perforated conical rings. This study reports entropy generation, energy consumption, and …
Thermohydraulic Performance and Entropy Generation Analysis of Nanofluids in Heat Exchanger
S Anitha, P Priyadharshini, VM Archana - High Entropy Materials - taylorfrancis.com
Entropy generation in thermodynamics is a consequence of irreversibility. Irreversibility is a
process in which the considered system does not return to its original state, once it is started …
process in which the considered system does not return to its original state, once it is started …