Thermodynamics: Foundations and ApplicationsCourier Corporation, 12 lug 2012 - 800 pagine Designed for both undergraduate and graduate students, this authoritative milestone in the foundational development of thermodynamics provides a unique reference for all physicists and engineers. Basic concepts and applications are discussed in complete detail with attention to generality and logical consistency, removing ambiguities and limitations of traditional presentations. Worked-out examples and end-of-chapter problems illustrate the use of energy and entropy balances as powerful analytical keystones in physics and engineering. The text provides material for undergraduate and graduate courses. At the introductory level, it covers heat engines, stable-equilibrium-state models for ideal-gas, incompressible-fluid and solid behaviors, heat, work and bulk-flow interactions, thermodynamic efficiency, energy conversion systems, energy, and availability/ At the intermediate level, it covers ideal and nonideal mixtures, chemical reactions, chemical equilibrium, and combustion. At the advanced level, the unique non-traditional order of exposition of the basic concepts and principles (system, property, state, process, first law, energy, equilibrium, stable equilibrium, second law, entropy) allows rigorous general definitions of energy and entropy valid for all systems (large and small, few- and many- particles) and all states (stable and non-stable equilibrium, as well as non-equilibrium). In particular, entropy is defined before and independently of the definitions of temperature and heat, and of the simple-system model for many-particle systems. |
Altre edizioni - Visualizza tutto
Thermodynamics: Foundations and Applications Elias P. Gyftopoulos,Gian Paolo Beretta Anteprima limitata - 2005 |
Thermodynamics: Foundations and Applications E. P. Gyftopoulos,Gian Paolo Beretta Visualizzazione estratti - 1991 |
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A₁ A₂ adiabatic availability adiabatic flame temperature adiabatic process air-fuel ratio amounts of constituents available energy bulk-flow chemical equilibrium chemical potential chemical potential equality chemical reaction chemical reaction mechanism composite compressor constant constituents and parameters defined denote E₁ electricity energy and entropy energy balance engine entropy balances entropy rate environment equal equation example Figure flow rate fluid Freon fuel function gases Gibbs free energy h₁ H₂ H₂O heat interaction ideal-gas initial inlet intensive properties irreversibility isentropic kJ kg kJ/kmol kmol liquid m³/kg kJ/kg mass mixture mole fraction molecules mutual stable equilibrium n₁ N₂ p₁ phase pressure products of combustion properties Psat pump reaction mechanism relation reservoir respect result reversible weight process S₁ saturated simple system specific volume stoichiometric coefficients stream T₁ T₂ temperature thermodynamics turbine V₁ values of amounts vapor y₁ zero