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Abstrakty
This brief note focuses on a simple fluid, i.e., a homogeneous, chemically inert, and electrically neutral fluid, for which, in the linear non-equilibrium regime, the thermodynamic state is expressed by a relation between pressure, temperature, and density. The approach based on the elementary scales is used to check the validity range of both the classical irreversible thermodynamics and the extended irreversible thermodynamics. The achieved result reveals that the classical irreversible thermodynamics fails in providing an adequate response when the mechanical solicitations exceed limit values.
Czasopismo
Rocznik
Tom
Strony
119--127
Opis fizyczny
Bibliogr. 12 poz., rys.
Twórcy
autor
- Environmental and Maritime Hydraulic Laboratory (LIAM), Civil, Construction-Architectural and Environmental Engineering Department (DICEAA), University of L’Aquila, Piazzale Ernesto Pontieri 1, Monteluco di Roio, 67100 L’Aquila, Italy
autor
- Environmental and Maritime Hydraulic Laboratory (LIAM), Civil, Construction-Architectural and Environmental Engineering Department (DICEAA), University of L’Aquila, Piazzale Ernesto Pontieri 1, Monteluco di Roio, 67100 L’Aquila, Italy
autor
- Environmental and Maritime Hydraulic Laboratory (LIAM), Civil, Construction-Architectural and Environmental Engineering Department (DICEAA), University of L’Aquila, Piazzale Ernesto Pontieri 1, Monteluco di Roio, 67100 L’Aquila, Italy
autor
- Environmental and Maritime Hydraulic Laboratory (LIAM), Civil, Construction-Architectural and Environmental Engineering Department (DICEAA), University of L’Aquila, Piazzale Ernesto Pontieri 1, Monteluco di Roio, 67100 L’Aquila, Italy
Bibliografia
- [1] Gad-el-Hak M.: The fluid mechanics of microdevices-the Freeman scholar lecture. J. Fluids Eng. 121(1999), 1, 5–33.
- [2] Auriault J.-L.: Homogenization theory applied to porous media. Poromechanics 3(2005), 113–120.
- [3] Di Nucci C., Celli D., Fischione P., Pasquali D.: Elementary scales and the lack of Fourier paradox for Fourier fluids. Meccanica 57(2022), 251–254.
- [4] Jou D., Casas-Vázquez J., Lebon G.: Extended Irreversible Thermodynamics revisited (1988–98). Rep. Prog. Phys. 62(1999), 7, 1035–1142.
- [5] Lenarczyk M., Domanski R.: Investigation of non-Fourier thermal waves interaction in a solid material. Arch. Thermodyn. 40(2019), 1, 115–126.
- [6] Othman M.I.A., Abouelregal A.E.E.: The effect of pulsed laser radiation on a thermoviscoelastic semi-infinite solid under two-temperature theory. Arch. Thermodyn. 38(2017), 3, 77–99.
- [7] Di Nucci C., Pasquali D., Celli D., Pasculli A., Fischione P., Di Risio M.: Turbulent bulk viscosity. Eur. J. Mech. B-Fluid. 84(2020), 446–454.
- [8] Durst F.: Fluid Mechanics: An Introduction to the Theory of Fluid Flows. Springer- Verlag, Berlin – Heidelberg 2008.
- [9] Frost W., Moulden T.H. (Eds.): Handbook of Turbulence: Vol. 1 Fundamentals and Applications. Plenum Press, New York – London 1977.
- [10] Gallavotti G.: Foundations of Fluid Dynamics. Springer-Verlag, Berlin – Heidelberg 2002.
- [11] Petersen K.B., Pedersen M.S.: The Matrix Cookbook. Tech. Univ. of Denmark, 2008.
- [12] Panton R.: Incompressible Flow. John Wiley & Sons, Hoboken 2013.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2976d91e-b2ea-4042-a05b-2761987371dc