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Natural convection heat transfer performance of additively manufactured tube bundle heat exchangers with novel fin design

Sebastian Unger, Matthias Beyer, Heiko Pietruske, L. Szalinski, Uwe Hampel

2021Heat and Mass Transfer24 citationsDOIOpen Access PDF

Abstract

Abstract We studied the heat transfer of finned heat exchanger configurations with a novel design. These novel fin designs use integrated pins to enhance the heat conduction from the fin base to the fin tip as well as the air-side heat transfer on the fin surface. Oval tubes with conventional circular plain fins (CPF) as well as novel circular integrated pin fins (CIPF) and serrated integrated pin fins (SIPF) were additively generated by a Selective Laser Melting (SLM) process and installed at the bottom of a 6.5 m long chimney. All heat exchanger designs were tested in a 2-row and 3-row configuration with Rayleigh numbers between 25,000 and 120,000. We found the average Nusselt number of SIPF to be higher and the Nusselt number of the CIPF to be lower than for the CPF. Moreover, the 2-row configuration achieved a higher Nusselt number compared to the 3-row configuration for all heat exchanger designs. The analysis of the individual tube rows showed the highest Nusselt numbers at the first tube row and the lowest one at the last tube row for both configurations. However, for the SIPF the difference between the first and second tube row is smaller compared to the CPF and CIPF. In order to evaluate the compactness of the heat exchanger, the volumetric heat flux density was considered. Similar to Nusselt number the volumetric heat flux density enhanced for the SIPF and reduced for the CIPF compared to the conventional design. Also the 2-row configuration reached greater thermal performance compared to the 3-row configuration. Additionally, the volume and the surface area of the heat exchanger are 6.9% and 30.7% lower for the SIPF compared to the CPF. The experimental data were used to develop an empirical heat transfer correlation between Nusselt number, Rayleigh number, fin design and tube row number.

Topics & Concepts

Nusselt numberMaterials scienceFinConcentric tube heat exchangerHeat exchangerHeat transferHeat fluxMicro heat exchangerHeat transfer enhancementMechanicsThermodynamicsRayleigh numberNatural convectionPlate fin heat exchangerHeat sinkAnnular finHeat transfer coefficientPlate heat exchangerComposite materialReynolds numberPhysicsTurbulenceHeat Transfer and OptimizationHeat Transfer MechanismsNanofluid Flow and Heat Transfer
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