Type: Article

Equilibrium and non-equilibrium thermodynamic analysis of high-order dual-phase-lag heat conduction

Journal: International Journal of Heat and Mass Transfer (00179310)Year: 2017/01/01Volume: 104Issue: Pages: 301 - 309

a :University of Isfahan - IRAN(IR) - Isfahan

DOI:10.1016/j.ijheatmasstransfer.2016.08.060Language: English

Abstract

The compatibility of dual-phase-lag (DPL) heat conduction with the hypothesis of local thermodynamic equilibrium (LTE) and extended irreversible thermodynamic is investigated. The analysis is based on evaluating the entropy production rate (EPR) for a solid slab that is exposed to a sudden temperature gradient at its boundaries. In this regard, an analytical solution is presented for the first-order and second-order approximations of the DPL model. It is shown that by extending the non-Fourier Cattaneo–Vernotte (C–V) wave model to the high-order DPL model, the unphysical values of the slab temperature that exist in the solution of C–V wave model cannot be generally eliminated. However, a set of phase lag times for the DPL model exist based on which these unphysical values can be omitted by increasing the diffusion versus the wavelike features. © 2016

Author Keywords

Diffusion featureDual-phase-lag heat conductionEntropy production rateExtended irreversible thermodynamicLocal equilibrium thermodynamicWavelike featureEntropyThermoanalysisThermodynamic stability

Other Keywords

EntropyThermoanalysisThermodynamic stabilityDual phase lagEntropy production ratesExtended irreversible thermodynamicsLocal equilibriumWave-like featuresHeat conduction