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چکیده
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In the present work, the effect of rotating and oscillating blade on heat transfer enhancement of
Newtonian and non-Newtonian fluid flow in a channel is investigated numerically. The non-
Newtonian fluid with shear thinning and shear thickening behavior is modeled by the power-law relationship.
The results are presented for local and average Nusselt number, pressure drop and temperature
and vorticity contours for various power law indexes. Depending on the power law index, the rotating or
stationary blade can have more effects on heat transfer. Also, it is observed that by increasing power law
index the value of heat transfer decreases. Comparing the results of channel with and without the blade,
it can be found that the presence of the blade for all power law indexes has a positive effect on the heat
transfer enhancement. The maximum heat transfer enhancement to straight channel is 58.7% for a stationary
blade with n = 0.4.
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