Classical irreversible thermodynamics versus extended irreversible thermodynamics. The role of the continuity equation [PDF]
Archives of Thermodynamics, 2022 This brief note focuses on a simple fluid, i.e., a homogeneous, chemically inert, and electrically neutral fluid, for which, in the linear nonequilibrium regime, the thermodynamic state is expressed by a relation between pressure, temperature, and density.
Carmine Di Nucci +3 more
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Emergent quantum mechanics as a classical, irreversible thermodynamics [PDF]
International Journal of Geometric Methods in Modern Physics, 2012 We present an explicit correspondence between quantum mechanics and the classical theory of irreversible thermodynamics as developed by Onsager, Prigogine et al. Our correspondence maps irreversible Gaussian Markov processes into the semiclassical approximation of quantum mechanics.
D. Acosta +3 more
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Early history of extended irreversible thermodynamics (1953–1983): An exploration beyond local equilibrium and classical transport theory [PDF]
The European Physical Journal H, 2014 This paper gives a historical account of the early years (1953–1983) of extended irreversible thermodynamics (EIT). The salient features of this formalism are to upgrade the thermodynamic fluxes of mass, momentum, energy, and others, to the status of independent variables, and to explore the consistency between generalized transport equations and a ...
G. Lebon, David Jou
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Mass and heat diffusion in ternary polymer solutions: A classical irreversible thermodynamics approach [PDF]
Polymer, 2016 Governing equations for evolution of concentration and temperature in three-component systems were derived in the framework of classical irreversible thermodynamics using Onsager variational principle and were presented for solvent/solvent/polymer and solvent/polymer/polymer systems.
S. Shams Es‐haghi, Mükerrem Çakmak
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Concepts of Phenomenological Irreversible Quantum Thermodynamics I: Closed Undecomposed Schottky Systems in Semi-Classical Description [PDF]
Journal of Non-Equilibrium Thermodynamics, 2018 Abstract If the von Neumann equation is modified by time dependent statistical weights, the time rate of entropy, the entropy exchange and the production of a Schottky system are derived whose Hamiltonian does not contain the interaction with the system’s environment.
W. Muschik
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On the derivation of linear irreversible thermodynamics for classical fluids [PDF]
Proceedings of the National Academy of Sciences, 1978 We consider the microscopic derivation of the linearized hydrodynamic equations for an arbitrary simple fluid. Our discussion is based on the concept of hydrodynamical modes, and use is made of the ideas and methods of the theory of subdynamics. We also show that this analysis leads to the Gibbs relation for the entropy of the system.
M. Theodosopulu +2 more
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From Discrete to Continuous Process Simulation in Classical Thermodynamics: Irreversible Expansions of Ideal Monatomic Gases [PDF]
Journal of Chemical Education, 2016 Thermodynamic processes are complex phenomena that can be understood as a set of successive stages. When treating processes, classical thermodynamics (and most particularly, the Gibbsian formulation, predominantly used in chemistry) only pays attention to initial and final states.
Carmen Álvarez-Rúa, Javier Borge
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Atti della Accademia Peloritana dei Pericolanti : Classe di Scienze Fisiche, Matematiche e Naturali, 2019 In a previous paper, using the standard procedures of classical irreversible thermodynamics (CIT) with internal variables, we have shown that it is possible to describe thermal relaxation phenomena, obtaining some well-kown results in extended ...
Vincenzo Ciancio, Liliana Restuccia
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On the semiclassical limit of emergent quantum mechanics, as a classical thermodynamics of irreversible processes in the linear regime [PDF]
, 2015 [ES] Motivado por los problemas conceptuales relativos a la cuantización de la gravedad, el físico teórico holandés G. 't Hooft (premio Nobel de física en 1999) sugirió la noción de que la mecánica cuántica pudiera ser la teoría emergente de alguna otra teoría determinista subyacente.
MILTÓN HENRY PEREA CÓRDOBA
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Unified Extended Irreversible Thermodynamics and the Stability of Relativistic Theories for Dissipation [PDF]
Frontiers in Astronomy and Space Sciences, 2021 In a relativistic context, the main purpose of Extended Irreversible Thermodynamics (EIT) is to generalize the principles of non-equilibrium thermodynamics to the domain of fluid dynamics.
Lorenzo Gavassino, Marco Antonelli
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