Modeling of heat transfer augmentation due to complex-shaped turbulator using nanofluid
Physica A: Statistical Mechanics and its Applications, 2020•Elsevier
To improve the efficiency of pipe, dispersing nanomaterial as well as insertion of turbulator
was suggested in current paper. There are three key parameter including, width ratio (BR),
flow rate and pitch ratio (PR). Outputs showed that intensity of swirl flow boosts with
augmenting width ratio which provides greater pressure drop. As a pleasant outputs, S gen,
th declines as BR increases. Nusselt number has descending trend via augmenting pitch
ratio. Nusselt number tends to augment with width ratio.
was suggested in current paper. There are three key parameter including, width ratio (BR),
flow rate and pitch ratio (PR). Outputs showed that intensity of swirl flow boosts with
augmenting width ratio which provides greater pressure drop. As a pleasant outputs, S gen,
th declines as BR increases. Nusselt number has descending trend via augmenting pitch
ratio. Nusselt number tends to augment with width ratio.
To improve the efficiency of pipe, dispersing nanomaterial as well as insertion of turbulator was suggested in current paper. There are three key parameter including, width ratio (BR), flow rate and pitch ratio (PR). Outputs showed that intensity of swirl flow boosts with augmenting width ratio which provides greater pressure drop. As a pleasant outputs, S g e n, t h declines as BR increases. Nusselt number has descending trend via augmenting pitch ratio. Nusselt number tends to augment with width ratio.
Elsevier
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