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Author Zhu, Yong, Ph. D.

Title Large-scale inhomogeneous thermodynamics : and application for atmospheric energetics / Yong Zhu
Published Cambridge : Cambridge International Science Pub., 2004
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Description 1 online resource (xi, 632 pages) : illustrations, maps
Contents ""Contents""; ""Introduction""; ""Two classical physical systems""; ""Introduction""; ""The Newtonian systems""; ""Principle of friction""; ""Dynamic entropy""; ""Simple thermodynamic systems""; ""Mole-number and molecular mass""; ""Thermodynamic variables""; ""Pressure of monatomic gas""; ""The first law of thermodynamics""; ""State equation of gases""; ""State equation of ideal gases""; ""Ideal-gas equation""; ""More features of ideal gases""; "" Kelvin temperature""; ""Mixing ratio of water vapor""; ""Thermodynamic energy law of ideal gases""; ""Internal energy and heat exchange""
"" Newtonian-thermodynamic system""""Introduction""; ""Field variables""; ""Parcel and parcel velocity""; ""Mass and heat transport equations""; ""Continuity equations""; ""Integrated variations in a system""; ""General continuity equation""; ""Heat flux equation""; ""Heat conduction equation""; ""Inhomogeneous thermodynamic system""; ""Adiabatic and transport processes""; ""Inhomogeneous thermodynamics""; ""Momentum equation of atmosphere""; ""Pressure gradient force""; "" Navier-Stokes equation""; ""Momentum equation of atmosphere""; ""Shallow water dynamics""
"" Newtonian-thermodynamic system""""Turbulent entropy and universal principle""; ""Introduction""; ""Thermodynamic entropy of turbulent system""; ""Simple turbulent process""; ""Thermodynamic entropy changes""; ""Grid thermometers""; ""Turbulent thermodynamic entropy""; ""Turbulent entropy law""; ""Difference from classical thermodynamic entropy""; ""General discussion""; ""Example""; ""Turbulent entropy and disorderliness""; ""Universal principle""; ""The principle""; ""Applications""; ""Partition functions""; ""Heat capacity and van der Waals equation""; "" Einstein function""
""Collisional heat capacity""""Comparison with experiments""; ""Predictability and thermodynamic entropy""; ""Introduction""; ""Change rate in diffusion processes""; ""Mass conservation law""; ""Mass diffusion equation""; ""Mass conservation""; ""Diffusive transport equation""; ""Unpredictability in classical thermodynamics""; ""Thermodynamic entropy law for uniform states""; ""Thermodynamic entropy change of non-uniform state""; ""Inadditive and scale-dependent features""; ""Thermodynamic entropy balance equation""; ""Relation to dynamic entropy""; ""Calculations for ideal gases""
""Polytropic process""""Molecular transport processes""; ""Introduction""; ""Diffusion velocity and partial velocities""; ""Diffusion element and diffusion velocity""; ""Partial velocities""; ""Diffusion velocity in non-uniform ideal gases""; ""Self-diffusion of ideal gases""; ""Diffusive mass flux""; ""Coefficient of self-diffusion""; ""Viscosity of ideal gases""; ""Diffusive momentum flux""; ""Momentum conduction""; ""Coefficient of viscosity""; ""Relation to self-diffusion""; ""Heat conduction of ideal gases""; ""Conductive heat flux""; ""Heat conductivity""; ""Modified Eucken formula""
Summary Annotation There are large-scale fluid systems in the gravity field, such as the Earth's atmosphere and oceans, which posses some features different from those of classical thermodynamic systems. For example, the oceans and atmosphere possess in homogeneous melt equilibrium states with the same amount of mass and energy. The zeroth law of classical thermodynamics can be applied for the inhomogeneous thermodynamic systems, and the irreversible variations may not be explained only by the change of classical thermodynamic entropy. Therefore, there has been a need for a new theory to study the particular systems. This book introduces a new science, called large-scale inhomogeneous thermodynamics, to study the inhomogeneous thermodynamic systems. The first eight chapters of the book illustrate the basic theories of inhomogeneous thermodynamics. Special attention is paid to the differences between the irreversible processes in a classical thermodynamic system and an inhomogeneous thermodynamic system. New physical concepts and relationships are introduced to study irreversible processes in the inhomogeneous thermodynamic systems which the classical thermodynamics fails to explain. With the new theories introduced, we are able to estimate more realistically how much the kinetic energy is created everyday in, for example, the Earth's atmosphere and oceans and improve greatly the predictions for development and movement of atmospheric set disturbances such as hurricanes and tornadoes. Examples are given in the book, together with the successful interpretation of the climatological distributions of the baroclinic storm tracks, blockings, tropical cyclones and thunderstorms in the troposphere. The energyconversions, related to different floor patterns, are studied by the theory of air engines in which the p-V diagrams are different from those studied in the classical thermodynamics and maybe interesting to engineering. In particular, a new reversible heat engine is forwarded to study the mean meridional circulations in the atmosphere. The Carnot engine is only an example of the new reversible engine. The important conditions for the development of super storms, such as the low-temperature inversion and vertical winds hear, may be interpreted by the air engine theory. The effect of entrainment and detrainment in convective processes is studied by the polytropic mixing theory. Some other applications, such as in the frontogenesis, slantwise convection and multi-equilibrium states of the atmosphere, are also demonstrated. The last two chapters are devoted to the study of uncertainties in current weather and climate prediction models related to various error sources. The predictability and chaos of various physical systems are also discussed. Most of the chapters are original. As the new theories are more rigorous and the applications are more successful than in the old theories, this book brings the current science to a higher level. The problem solved in the book could not be solved before. This book is unique and it is supported solidly and by the actual data from observations. It will essential reading for professional people, and should be accepted by readers at different levels, as it is concerned more with physical philosophies other than mathematics. The mathematics is given in the easy-to-understand form. understanding. The book should be used as a text book for the students ofmeteorology, oceanography, geophysics and environmental sciences. It also provides a good reference source for those working in and studying hydrodynamics, thermodynamics, statistical mechanics and other physics subjects
Bibliography Includes bibliographical references (pages 597-613) and index
Notes Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002. http://purl.oclc.org/DLF/benchrepro0212 MiAaHDL
Print version record
Subject Atmospheric physics.
Atmospheric thermodynamics.
Form Electronic book
ISBN 1423723082 (electronic bk.)
1898326312
1904602835
9781423723080 (electronic bk.)
9781898326311
9781904602835