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W2891363733 startingPage "51" @default.
W2891363733 abstract "Abstract The present study aimed to investigate the natural convection heat transfer in a power-law, non-Newtonian fluid under an applied magnetic field inside a C-shaped cavity using the Finite Difference Lattice Boltzmann method (FDLBM). Temperature distribution on the wall on the left side was non-uniform and sinusoidal with the cold wall on the right side. Both top and bottom horizontal walls of the cavity were insulated against heat and mass transfer. The Boussinesq approximation was used due to negligible density variations, making the hydrodynamic field sensitive to the thermal field. Furthermore, the D2Q9 lattice arrangement was used for the density and energy distribution functions‏. This study investigates the effects of the Rayleigh number, exponential function index, aspect ratio, and the Hartmann number on the flow and temperature fields. The results show that the heat transfer rate increases with increasing Rayleigh number. Moreover, it was found that the Nusselt number decreases with increasing power-law index (n) at higher Rayleigh numbers and that an increase in the Hartmann number results in a reduced heat transfer rate. The reduction in the heat transfer rate caused by the increased Hartmann number in the shear thinning fluids was more than that in shear thickening fluids. The Nusselt number decreases with increasing cavity aspect ratio for the Newtonian and shear thinning fluids, whereas for shear thickening fluids, the Nusselt number initially increased and then decreased." @default.
W2891363733 created "2018-09-27" @default.
W2891363733 creator A5003854073 @default.
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W2891363733 date "2018-11-01" @default.
W2891363733 modified "2023-10-02" @default.
W2891363733 title "Numerical investigation of heat transfer in a power-law non-Newtonian fluid in a C-Shaped cavity with magnetic field effect using finite difference lattice Boltzmann method" @default.
W2891363733 cites W1964074202 @default.
W2891363733 cites W1976253241 @default.
W2891363733 cites W1979201827 @default.
W2891363733 cites W1983758751 @default.
W2891363733 cites W1989995718 @default.
W2891363733 cites W1993777568 @default.
W2891363733 cites W2001081184 @default.
W2891363733 cites W2003326827 @default.
W2891363733 cites W2008706960 @default.
W2891363733 cites W2012829485 @default.
W2891363733 cites W2021109748 @default.
W2891363733 cites W2022320410 @default.
W2891363733 cites W2023419013 @default.
W2891363733 cites W2024251530 @default.
W2891363733 cites W2025306793 @default.
W2891363733 cites W2027700479 @default.
W2891363733 cites W2031960313 @default.
W2891363733 cites W2032040412 @default.
W2891363733 cites W2042516458 @default.
W2891363733 cites W2042671995 @default.
W2891363733 cites W2049971637 @default.
W2891363733 cites W2052399687 @default.
W2891363733 cites W2059445851 @default.
W2891363733 cites W2063808245 @default.
W2891363733 cites W2066035072 @default.
W2891363733 cites W2066638076 @default.
W2891363733 cites W2068472258 @default.
W2891363733 cites W2073048973 @default.
W2891363733 cites W2074898145 @default.
W2891363733 cites W2077266528 @default.
W2891363733 cites W2079152916 @default.
W2891363733 cites W2080406088 @default.
W2891363733 cites W2083931507 @default.
W2891363733 cites W2088902551 @default.
W2891363733 cites W2090749450 @default.
W2891363733 cites W2111352333 @default.
W2891363733 cites W2136419670 @default.
W2891363733 cites W2140470049 @default.
W2891363733 cites W2152229704 @default.
W2891363733 cites W2158496598 @default.
W2891363733 cites W2167862052 @default.
W2891363733 cites W2283158184 @default.
W2891363733 cites W2298807736 @default.
W2891363733 cites W2301423568 @default.
W2891363733 cites W2323761897 @default.
W2891363733 cites W2343144549 @default.
W2891363733 cites W2466295450 @default.
W2891363733 cites W2467491119 @default.
W2891363733 cites W2468362295 @default.
W2891363733 cites W2469022158 @default.
W2891363733 cites W2536750450 @default.
W2891363733 cites W2537384530 @default.
W2891363733 cites W2538108745 @default.
W2891363733 cites W2576238374 @default.
W2891363733 cites W2591772253 @default.
W2891363733 cites W2592063757 @default.
W2891363733 cites W2604250292 @default.
W2891363733 cites W2622975134 @default.
W2891363733 cites W2766611425 @default.
W2891363733 cites W2777488937 @default.
W2891363733 cites W2783317712 @default.
W2891363733 cites W2788777833 @default.
W2891363733 cites W2791085977 @default.
W2891363733 cites W2791954924 @default.
W2891363733 cites W2792452477 @default.
W2891363733 cites W2963084012 @default.
W2891363733 cites W872501606 @default.
W2891363733 doi "https://doi.org/10.1016/j.compfluid.2018.09.012" @default.
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