Simulation with Entropy Thermodynamics
Beyond its identification with the second law of thermodynamics, entropy is a formidable tool for describing systems in their relationship with their environment. This book proposes to go through some of these situations where the formulation of entropy, and more precisely, the production of entropy...
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Year of Publication: | 2021 |
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Physical Description: | 1 electronic resource (222 p.) |
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Goupil, Christophe edt Simulation with Entropy Thermodynamics Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 1 electronic resource (222 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Beyond its identification with the second law of thermodynamics, entropy is a formidable tool for describing systems in their relationship with their environment. This book proposes to go through some of these situations where the formulation of entropy, and more precisely, the production of entropy in out-of-equilibrium processes, makes it possible to forge an approach to the behavior of very different systems. Whether for dimensioning structures; influencing parameter variability; or optimizing power, efficiency, or waste heat reduction, simulations based on entropy production offer a tool that is both compact and reliable. In the case of systems marked by complexity, it appears to be the only way. In that sense, realistic optimization can be carried out, integrating within the same framework both the system and all the constraints and boundary conditions that define it. Simulations based on entropy give the researcher a powerful analytical framework that crosses the disciplines of physics and links them together. English Research & information: general bicssc segmented thermoelectric generator pulsed heat transient non-equilibrium quantum field theory quantum brain dynamics Kadanoff–Baym equation entropy super-radiance complex systems thermodynamics machine learning quantum phase transition Ising model variational autoencoder out of equilibrium thermodynamics finite time thermodynamics living systems polyelectrolytes Ohm law colloids Debye plasmas thermodynamics pressure-ionization electrical conductivity electronic entropy Seebeck coefficient transport LaFeSi FeRh CuNi thermoelectrics power conversion efficiency voltage-electrical current curve working point entropy pump mode generator mode power factor figure of merit Altenkirch-Ioffe model entropy production optimization reactor modelling irreversible thermodynamics TEG performance device modeling temperature profile constant properties model Fourier heat Thomson heat Joule heat thermoelectric materials energy harvesting thermoelectric generator working points maximum electrical power point 3-0365-0114-2 3-0365-0115-0 Goupil, Christophe oth |
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English |
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Goupil, Christophe |
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Goupil, Christophe |
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Simulation with Entropy Thermodynamics |
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Simulation with Entropy Thermodynamics |
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Simulation with Entropy Thermodynamics |
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Simulation with Entropy Thermodynamics |
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Simulation with Entropy Thermodynamics |
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Simulation with Entropy Thermodynamics |
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Simulation with Entropy Thermodynamics |
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simulation with entropy thermodynamics |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2021 |
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1 electronic resource (222 p.) |
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3-0365-0114-2 3-0365-0115-0 |
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AT goupilchristophe simulationwithentropythermodynamics |
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(CKB)5400000000046008 (oapen)https://directory.doabooks.org/handle/20.500.12854/68465 (EXLCZ)995400000000046008 |
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