Thermal enhancement, thermophoretic diffusion, and Brownian motion impacts on MHD micropolar nanofluid over an inclined surface: Numerical simulation
Esraa N. Thabet(Aswan University), F. S. Bayones(Taif University), Zeeshan Khan(Abdul Wali Khan University Mardan), A. M. Abd-Alla(Sohag University)
Cited by 57
Related Papers
Modeling and simulation of Maxwell nanofluid flows in the presence of Lorentz and Darcy–Forchheimer forces: toward a new approach on Buongiorno’s model using artificial neural network (ANN)
|The European Physical Journal Plus|2023|80
Supervised neural networks learning algorithm for three dimensional hybrid nanofluid flow with radiative heat and mass fluxes
|Ain Shams Engineering Journal|2021|65
Cattaneo-christov heat flux model of 3D hall current involving biconvection nanofluidic flow with Darcy-Forchheimer law effect: Backpropagation neural networks approach
|Case Studies in Thermal Engineering|2021|63
Efficiency assessment of thermal radiation utilizing flow of advanced nanocomposites on riga plate
|Applied Thermal Engineering|2024|53
Chemical reaction and radiation analysis for the MHD Casson nanofluid fluid flow using artificial intelligence
|Chaos Solitons & Fractals|2024|37