Heat transfer at nanometric scales described by extended irreversible thermodynamics

Machrafi, Hatim

doi:10.1515/caim-2016-0013

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Heat transfer at nanometric scales described by extended irreversible thermodynamics

Machrafi, Hatim

2016 • In Communications in Applied and Industrial Mathematics, 7 (2), p. 177-195

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https://hdl.handle.net/2268/216169

DOI
10.1515/caim-2016-0013

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Keywords :

Extended irreversible thermodynamics; Nanometric heat transfer; Spherical and cylindrical nanocomposites; Thermal conductivity

Abstract :

[en] The purpose of this work is to present a study on heat conduction in systems that are composed out of spherical and cylindrical micro-and nanoparticles dispersed in a bulk matrix. Special emphasis is put on the dependence of the effective heat conductivity on various selected parameters as particle size and also its shape, surface specularity and density, including particle-matrix interaction. The heat transfer at nanometric scales is modelled using extended irreversible thermodynamics, whose main feature is to elevate the heat flux vector to the status of independent variable. The model is illustrated by a Copper-Silicium (Cu-Si) system. It is shown that all the investigated parameters have a considerable influence, the particle size being especially useful to either increase or decrease the effective thermal conductivity. © 2016 Hatim Machrafi, licensee De Gruyter Open.

Disciplines :

Mathematics

Author, co-author :

Machrafi, Hatim ; Université de Liège - ULiège > Département d'astrophys., géophysique et océanographie (AGO) > Thermodynamique des phénomènes irréversibles

Language :

English

Title :

Heat transfer at nanometric scales described by extended irreversible thermodynamics

Publication date :

2016

Journal title :

Communications in Applied and Industrial Mathematics

eISSN :

2038-0909

Publisher :

Walter de Gruyter GmbH

Volume :

Issue :

Pages :

177-195

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 17 November 2017

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Bibliography

Moreira, D.C., Sphaier, L.A., Reis, J.M.L., Nunes, L.C.S., Experimental investigation of heat conduction in polyester Al2O3 and polyester CuO nanocomposites (2011) Journal of Experimental Fluid Science, 35, pp. 1458-1462
Chen, J., Li, S.L., Tao, Z.L., Zhang, L.Z., Reversible hydrogen and lithium storage of mos2 nanotubes (2002) International Journal of Nanoscience, 1, pp. 295-302
Wang, M., Pan, N., Wang, J., Chen, S., Mesoscopic simulations of phase distribution effects on the effective thermal conductivity of microgranular porous media (2007) Journal of Colloid and Interface Science, 311, pp. 562-570
Wang, M., Wang, X., Wang, J., Pan, N., Grain size effects on effective thermal conductivity of porous materials with internal thermal contact resistance (2013) Journal of Porous Media, 16, pp. 1043-1048
Jou, D., Sellitto, A., Cimmelli, V.A., Multi-temperature mixture of phonons and electrons and nonlocal thermoelectric transport in thin layers (2014) International Journal of Heat and Mass Transfer, 71, pp. 459-468
Jou, D., Casas-Vazquez, J., Lebon, G., (2010) Extended Irreversible Thermodynamics, , Springer-Verlag
Lebon, G., Machrafi, H., Grmela, M., Dubois, C., An extended thermodynamic model of transient heat conduction at sub-continuum scales (2011) Proceedings of the Royal Society A, 467, pp. 3241-3256
Nan, C., Birringer, R., Clarke, D.R., Gleiter, H., Effective thermal conductivity of particulate composites with interfacial thermal resistance (1997) Journal of Applied Physics, 81, pp. 6692-6699
Minnich, A., Chen, G., Modified effective medium formulation for the thermal conductivity of nanocomposites (2007) Applied Physics Letters, 91, p. 073105
Chen, G., Thermal conductivity and ballistic-phonon transport in the cross-plane direction of superlattices (1998) Physics Review B, 57, pp. 14958-14973
Jou, D., Casas-Vazquez, J., Lebon, G., (2008) Understanding Non-Equilibrium Thermodynamics, , Springer-Verlag
Cattaneo, C., Sulla conduzione (1948) Atti Del Seminario Matematico e Fisico Delle Universita di Modena, 3, pp. 83-101
Behrang, A., Grmela, M., Dubois, C., Turenne, S., Laeur, P.G., Lebon, G., Effective heat conduction in dispersion of wires (2014) Applied Physics Letters, 104, p. 063106
Dreyer, W., Struchtrup, H., Heat pulse experiments revisited (2003) Continuum Mechanics Thermodynamics, 3, pp. 3-50
Hess, S., On nonlocal constitutive relations, continued fraction expansion for the wave vector dependent diffusion coefficient (1977) Zeitschrift Naturforschung, 32 A, pp. 678-684
Jou, D., Casas-Vazquez, J., Lebon, G., Grmela, M., A phenomenological scaling approach for heat transport in nano-systems (2005) Applied Mathematics Letters, 18, pp. 963-967
Perry, R.H., Green, D.W., Maloney, J.O., (1997) Perry's Chemical Engineers' Handbook, , McGraw-Hill
Ordonez-Miranda, J., Alvarado-Gil, J.J., Thermal conductivity of nano-composites with high volume fractions of particles (2012) Composites Science and Technology, 72, pp. 853-857

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