Litcius/Paper detail

Numerical study of heat transfer and fluid flow in the offset strip-fin heat exchanger: A fin-by-fin analysis

Paolo Blecich, Josip Batista, Mateo Kirinčić, Anica Trp, Kristian Lenić

2024International Communications in Heat and Mass Transfer13 citationsDOIOpen Access PDF

Abstract

Heat transfer and fluid flow in the offset strip-fin heat exchanger are studied numerically, fin by fin. The impact of the offset strip-fin geometry on j/f performance is also evaluated. The mathematical model is validated against j- and f-factor correlations from the literature. The numerical analysis revealed that the offset strip-fin heat exchanger achieves best j/f performance in the laminar flow region (Re dh < 700). At higher Reynolds numbers , the j/f factor deteriorates under the impact of flow recirculations, oscillatory wakes and the contribution of form drag. Compared to the continuous rectangular fin, the offset strip-fin increases the air-side heat transfer coefficient by 50% at Re dh = 100 and by 120% at Re dh = 4000 while the pressure drop increases by a factor of 3–5. Generally, the offset strip-fin achieves j/f performance between 0.20 and 0.30, with maximum values found in the laminar flow region (Re dh 〈1000). Offset strip-fin geometries with reduced fin space and increased wall thickness strongly affect the form drag, which reduces the j/f performance, especially for Re dh > 1000. The fin height weakly influences the performance, and the j/f factor is between 0.22 and 0.23 for a wide range of fin heights.

Topics & Concepts

FinAnnular finMechanicsMaterials sciencePlate fin heat exchangerHeat transferHeat exchangerThermodynamicsMicro heat exchangerHeat transfer coefficientPlate heat exchangerPhysicsComposite materialHeat Transfer and OptimizationSilicon Carbide Semiconductor TechnologiesHeat Transfer and Boiling Studies