Buch

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Übersicht

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Verlag	:	Springer International Publishing
Buchreihe	:	SEMA SIMAI Springer Series (Bd. 6)
Sprache	:	Englisch
Erschienen	:	30. 03. 2018
Seiten	:	170
Einband	:	Kartoniert
Höhe	:	235 mm
Breite	:	155 mm
Gewicht	:	302 g
ISBN	:	9783319800929
Sprache	:	Englisch

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Autorinformation

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David Jou (born in Sitges,
Catalonia, Spain in 1953) is Full Professor of Physics of Condensed Matter at
the Autonomous University of Barcelona, Spain. He has published 230 research
papers on nonequilibrium thermodynamics and statistical mechanics as well as several
books, including Extended Irreversible Thermodynamics
(with J. Casas-Vázquez and G Lebon, Springer, now in its 4th
edition, 2014), Thermodynamics of Fluids Under
Flow (with J. Casas-Vázquez and M. Criado-Sancho, Springer, 2014), and Understanding Non-equilibrium Thermodynamics (with G. Lebon and J. Casas-Vázquez,
Springer, 2008).

Vito Antonio
Cimmelli (born in Sarno, Italy in 1958) is a Full Professor of Mathematical
Physics at the University of Basilicata, Potenza, Italy. His research interests
are the mathematical methods of nonequilibrium thermodynamics, nonlocal
constitutive theories, and heat conduction far from equilibrium. Professor
Cimmelli is the author of around 90 research articles on these topics.

Antonio
Sellitto (born in Nocera Inferiore, Italy in 1978) is a fixed-term researcher in
Mathematical Physics at the University of Salerno, Italy, and an adjunct
professor at the University of Basilicata, Potenza, Italy. In 2012 he was
awarded an INdAM-SIMAI prize for his PhD thesis on “Nonequilibrium Temperature
and Heat Transport Equations in Nanosystems”. He has published several papers
on nonequilibrium thermodynamics and heat transport in nanosystems.

Inhaltsverzeichnis

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1 Nonequilibrium
thermodynamics and heat transport at nanoscale.- 2 Linear and nonlinear
heat-transport equations.- 3 Mesoscopic description of boundary effects and
effective thermal conductivity in nanosystems: phonon hydrodynamics.- 4 Mesoscopic
description of effective thermal conductivity in porous systems, nanocomposites
and nanofluids.- 5 Weakly nonlocal and nonlinear heat transport.- 6 Heat
transport with phonons and electrons and efficiency of thermoelectric generators.-
7 Perspectives.

Deine Buchhandlung

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