Heat transfer augmentation of a fin and tube heat exchanger by the winglet type vortex generator strongly depends on the location of the winglet w.r.t tube centre. This study was aimed at optimizing the location of the 'common flow up' delta winglets for the maximum thermal compactness of a given inline aligned fin and tube heat exchanger. The winglets were erected with a conservative attack angle to avoid severe increase in the pressure drop. This work also attempts to first time model the contact resistance between the fins and the tube as a hypothetical conduction resistance. Beginning with the selection of all promising locations of the winglets, an optimal location was identified that allows maximum augmentation of the thermal performance on the fin side. This numerical study clearly shows that the optimally located 'common flow up' delta winglets have improved the average thermal performance of both the fins and the tubes at the same Reynolds number.

• 出版日期2015-5-5