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Effect of a unique winglet twisted tape insert on thermal and hydraulic properties of tubular heat exchanger

Rajesh Maithani, Bipin Kumar, Sachin Sharma, Sunil Kumar, Anil Kumar

2022Experimental Heat Transfer23 citationsDOI

Abstract

The present experimental investigation incorporates the winglet twisted tapes as an insert to determine the thermal and hydraulic performance of a heat exchanger tube. The purpose of connecting the winglet to the twisted tape is to improve the heat transmission while minimizing the pressure loss by not disrupting the flow at the core portion. The thermal performance of a heat exchanger with turbulent promoters is assessed by varying geometric factors, such as the size of the promoters, Twist ratio (y/W), Winglet pitch ratio (Pw/LT), and Winglet height ratio (hw/bw). Experiments were carried out for Reynolds numbers (Re) ranging from 3,000 to 21,000. For a set of geometric parameters, the greatest thermohydraulic performance achieved was 1.58. Regression analysis is used to build a statistical association for Nusselt number Nu and friction factor f, and the anticipated data obtained is of acceptable accuracy. The entropy generation is expressed in the form of entropy generation number and the Bejan number to fetch the dominance of thermal or friction entropy using winglet twisted tape.

Topics & Concepts

Wingtip deviceMaterials scienceReynolds numberHeat exchangerMechanicsNusselt numberPressure dropTurbulenceVortex generatorThermodynamicsPhysicsVortexAerodynamicsHeat Transfer MechanismsHeat Transfer and OptimizationNanofluid Flow and Heat Transfer
Effect of a unique winglet twisted tape insert on thermal and hydraulic properties of tubular heat exchanger | Litcius