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Constructal design of a fan-shaped high thermal conductivity path in a square heat generation body

Huijun Feng, Lingen Chen, Fengyin Zhang, Yanlin Ge

2022Case Studies in Thermal Engineering23 citationsDOIOpen Access PDF

Abstract

A fan-shaped high thermal conductivity path (FSHTCP) model in a square heat generation body (SHGB) is built in this paper. For the given areas of the FSHTCP and SHGB, the structure of the FSHTCP is optimized by successively varying its width, central angle and radius, and the dimensionless maximum temperature difference (DMTD) and dimensionless entropy generation rate (DEGR) of the SHGB are minimized, respectively. It is found that the optimal dimensionless width, optimal central angle and optimal dimensionless radius can lead to the triple minimum DMTD and DEGR, respectively. When the area fraction is 0.15, the DMTD and DEGR after triple minimizations are abated by 33.37% and 32.46%, respectively. This illustrates that the optimization effect is remarkable after constructal design of the FSHTCP. The optimal structures of the FSHTCP with the minimizations of DMTD and DEGR are different, and the designers should choose the optimal construct of the FSHTCP according to different design requirements.

Topics & Concepts

Constructal lawDimensionless quantityOptimal designRADIUSThermal conductivityThermodynamicsMaterials scienceSquare (algebra)MathematicsMechanicsPhysicsHeat transferGeometryComputer scienceStatisticsComputer securityHeat Transfer and OptimizationTopology Optimization in EngineeringAdvanced Multi-Objective Optimization Algorithms