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Topography optimisation using a reduced-dimensional model for transient conjugate heat transfer between fluid channels and solid plates with volumetric heat source

Yupeng Sun, Song Yao, Joe Alexandersen

2024Structural and Multidisciplinary Optimization10 citationsDOIOpen Access PDF

Abstract

Abstract Consideration of transient effects is important for industrial applications of heat transfer structure optimisation studies; however, the huge computational cost associated with transient problems is a pressing concern. This paper proposes an extension of a previous reduced-dimensional model to transient conjugate heat transfer between a fluid flow and solid-heated plates in a plate heat exchanger. The extended reduced-dimensional model introduces the temperature field of the plate governed by the heat conduction equation, which is coupled to the temperature field of the fluid, governed by the convection-diffusion equation, through the heat flux balance equation at the contact surface. The model is based on assumptions of fully developed flow and constant temperature profile, reducing the three-dimensional problem to a planar problem and significantly reducing computational costs. The accuracy of the model for the simulation of transient heat transfer is verified by comparison with a three-dimensional model. In this paper, the topography of the heat exchanger plate is optimised for both steady-state and transient conditions by applying the reduced-dimensional model. The effectiveness of the optimised design was demonstrated by the cross-check of both the reduced-dimensional and full three-dimensional models. Furthermore, this work considers the effect of time-independent boundary conditions and time-dependent boundary conditions on transient optimisation. The transient and steady-state optimised designs are analysed and compared for both conditions, and the necessity of transient optimisation is discussed.

Topics & Concepts

Heat transferTransient (computer programming)MechanicsThermal conductionHeat exchangerSteady state (chemistry)Boundary value problemWork (physics)Materials scienceThermodynamicsComputer scienceMathematicsChemistryPhysicsMathematical analysisOperating systemPhysical chemistryHeat Transfer and OptimizationTopology Optimization in EngineeringBuilding Energy and Comfort Optimization