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Magnetohydrodynamic flow and heat transfer of a hybrid nanofluid over a rotating disk by considering Arrhenius energy
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M Gnaneswara Reddy,Naveen Kumar R,B C Prasannakumara,N G Rudraswamy,K Ganesh Kumar
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Table 4. Numerical values of ${{Re}}^{-1/2}Sh$ for different physical parameter values for both the hybrid and nanofluid case.
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| | | | ${{Re}}^{-1/2}Sh$ |
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| $Sc$ | $\sigma $ | $\delta $ | $E$ | Nano fluid | Hybrid nanofluid |
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| 0.1 | | | | 0.594 632 | 0.682 126 | | 0.2 | | | | 0.622 126 | 0.757 120 | | 0.3 | | | | 0.737 120 | 0.833 300 | | 0.1 | | | 0.228 075 | 0.239 495 | | 0.15 | | | 0.259 495 | 0.300 374 | | 0.2 | | | 0.278 075 | 0.319 495 | | | 0.1 | | 0.378 485 | 0.390 374 | | | 0.2 | | 0.350 374 | 0.360 687 | | | 0.3 | | 0.378 485 | 0.390 374 | | | | 0.01 | 0.250 454 | 0.270 687 | | | | 0.1 | 0.287 421 | 0.288 215 | | | | 0.2 | 0.304 821 | 0.314 562 |
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