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Design and modelling of porous gyroid heatsinks: Influences of cell size, porosity and material variation

Sean Samson, Phuong Tran, Pier Marzocca

2023Applied Thermal Engineering98 citationsDOIOpen Access PDF

Abstract

Triply Periodic Minimal Surfaces (TPMS) are rapidly becoming favourable heatsink and heat exchanger topologies over traditional designs and other cellular structures. Their implicitly defined geometries provide increased heat transfer surface areas while maintaining smooth flow paths capable of further enhancement through flow tortuosity. Substantial investigations have been conducted on these structures within the field of thermal management systems, however more research is needed in understanding how design parameters effect flow and heat transfer performance. Cell size is a critical design parameter that sets the scale of these structures, however little research has been conducted to date. This work attempted to investigate these gaps through a parametric and material study of TPMS gyroid sheets as heatsinks within turbulent flow. Samples of varying cell size and porosity were compared, where thermal and hydraulic performances were normalised against sample specific volume and wetted surface area. This found that convective performance was agnostic to cell size, but greatly influenced by porosity. These were further compared against a reference fin heatsink. Performance measures such as thermal resistance (R), Nusselt number (Nu) and enhancement-to-losses (η) saw improvements of up to 53%, 300% and 42%, respectively when compared to the reference geometry. The results of this work may prove useful in further understanding the relationship between design parameters and heat transfer enhancement and help pave the way to meaningful performance optimisation for these structures.

Topics & Concepts

GyroidHeat sinkNusselt numberHeat transferPorosityMaterials scienceTortuosityHeat exchangerMechanicsWork (physics)Thermal resistanceMechanical engineeringTurbulenceComposite materialEngineeringReynolds numberPhysicsPolymerCopolymerHeat and Mass Transfer in Porous MediaHeat Transfer and OptimizationNanofluid Flow and Heat Transfer
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