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Thermal analysis of rectangular moving fins with temperature‐variant properties by employing the Galerkin scheme

Sina Gouran, S. E. Ghasemi

2024Heat Transfer17 citationsDOIOpen Access PDF

Abstract

Abstract In the present study, the thermal behavior of a longitudinal fin considering three types of heat transfer mechanisms (conduction, convection, and radiation) is investigated. For this research, thermal conductivity, heat source, and heat transfer coefficient are assumed nonindependent. A semianalytical scheme called the Galerkin Method is utilized for solving the dimensionless governing equation. The impacts of important physical variables like Peclet number, gradient of thermal conductivity, thermo‐geometric parameter, and radiation–conduction parameter on temperature profiles are analyzed comprehensively. The obtained results indicate that raising the thermo‐geometric parameter from 0 to 2 leads to a 32% reduction in the temperature profile. Also from the results, it can be found that a 28% increment in the temperature is observed by changing the gradient of thermal conductivity from 0 to 2.

Topics & Concepts

Thermal conductionThermal conductivityPéclet numberDimensionless quantityGalerkin methodTemperature gradientHeat transferMechanicsConvectionMaterials scienceHeat transfer coefficientConvective heat transferFinThermal radiationThermodynamicsThermalPhysicsFinite element methodMeteorologyComposite materialHeat Transfer and OptimizationHeat Transfer MechanismsNanofluid Flow and Heat Transfer
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