Using different Heuristic strategies and an adaptive Neuro-Fuzzy inference system for multi-objective optimization of Hybrid Nanofluid to provide an efficient thermal behavior
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Elsevier BV
Reference47 articles.
1. Designing the best ANN topology for predicting the dynamic viscosity and rheological behavior of MWCNT-CuO (30:70)/SAE 50 nano-lubricant;Esfe;Colloids Surfaces A,2022
2. A well-trained artificial neural network for predicting the optimum conditions of MWCNT–ZnO (10:90)/SAE 40 nano-lubricant at different shear rates, temperatures, and concentration of nanoparticles;Hemmat Esfe;Arab. J. Chem.,2023
3. Transverse vibration analysis of double-walled carbon nanotubes in an elastic medium under temperature gradients and electrical fields based on nonlocal Reddy beam theory;Chen;Mater. Sci. Eng.,2023
4. Molecular dynamics simulation of condensation phenomenon of nanofluid on different roughness surfaces in the presence of hydrophilic and hydrophobic structures;Hekmatifar;J. Mol. Liq.,2021
5. Thermal conductivity prediction of WO3-CuO-Ag (35: 40: 25)/water hybrid ternary nanofluid with Artificial Neural Network and back-propagation algorithm;Lin;Mater. Today Commun.,2023
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