In this volume, we have collected a series of reviews that cover both experimental and theoretical work geared toward the more exact requirements of current SFE applications. While we have artificially divided the volume into experimental and theoretical sections, natural overlaps will be apparent. Many of the papers on experimental and theoretical sections, natural overlaps will be apparent. Many of the papers on experimental technique contain discussions on equation of state correlations. Indeed, a good deal of the experimental work is intimately tied to a mathematical description of fluid…mehr
In this volume, we have collected a series of reviews that cover both experimental and theoretical work geared toward the more exact requirements of current SFE applications. While we have artificially divided the volume into experimental and theoretical sections, natural overlaps will be apparent. Many of the papers on experimental and theoretical sections, natural overlaps will be apparent. Many of the papers on experimental technique contain discussions on equation of state correlations. Indeed, a good deal of the experimental work is intimately tied to a mathematical description of fluid mixtures. The theoretical section presents reviews that cover the modern theory of critical phenomena, methods to correlate near critical experimental results and approaches to understanding the behavior of near critical fluids from microscopic theory. It is hoped that the scope of these reviews will provide the reader with the basis to further develop our understanding of the behavior of supercritical fluids.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. Thomas J. Bruno leads the Experimental Properties of Fluids Group of the Thermophysical Properties Division at NIST, Boulder. Dr. Bruno received his B.S. in chemistry from the Polytechnic Institute of Brooklyn (1976), and his M.S. and Ph.D. in physical chemistry from Georgetown University (1978, 1981). He served as a National Academy of Sciences-National Research Council postdoctoral associate at NIST, and was later appointed to the staff. James F. Ely, Group Leader, both of the Thermophysics Division, National Institute of Standards and Technology, Boulder, Colorado.
Inhaltsangabe
PART 1: THEORY OF SUPERCRITICAL FLUIDS Chaper 1 Thermodynamics of Solutions Near the Solvent's Critical Point Chaper 2 Vapor-Liquid Equilibrium and the Modified Leung-Griffiths Model Chaper 3 Molecular Analysis of Phase Equilibria in Supercritical Fluids Chaper 4 Fluctuation Theory of Sueprcritical Solutions Chaper 5 Application of Molecular Simulation to the Study of Supercritical Extraction Chaper 6 Transport Properties of Supercritical Fluids and Fluid Mixtures PART 2: EXPERIMENTAL WORK AND APPLICATIONS Chapter 7 Thermophysical Property data for Supercritical Extraction Design Chaper 8 Properties of Carbon Dioxide Rich Mixtures Chapter 9 Thermal Conductivity and Difffusivity in Supercritical Fluids Chapter 10 Mass Transfer in Supercritical Extraction from Solid Matrices Chapter 11 Design and Control of Supercritical Processes: A Review Chapter 12 Microemulsions in Near Critical and Supercritical Fluids Chapter 13 Supercritical Fluid Extraction and Retrograde Condensation (SFE/RC) Chapter 14 Supercritical Extraction in Environment Control Chapter 15 Reactions In and With Supercritical Fluids Chapter 16 A Summary of the Patent Literature of Supercritical Fluid Technology Index
PART 1: THEORY OF SUPERCRITICAL FLUIDS Chaper 1 Thermodynamics of Solutions Near the Solvent's Critical Point Chaper 2 Vapor-Liquid Equilibrium and the Modified Leung-Griffiths Model Chaper 3 Molecular Analysis of Phase Equilibria in Supercritical Fluids Chaper 4 Fluctuation Theory of Sueprcritical Solutions Chaper 5 Application of Molecular Simulation to the Study of Supercritical Extraction Chaper 6 Transport Properties of Supercritical Fluids and Fluid Mixtures PART 2: EXPERIMENTAL WORK AND APPLICATIONS Chapter 7 Thermophysical Property data for Supercritical Extraction Design Chaper 8 Properties of Carbon Dioxide Rich Mixtures Chapter 9 Thermal Conductivity and Difffusivity in Supercritical Fluids Chapter 10 Mass Transfer in Supercritical Extraction from Solid Matrices Chapter 11 Design and Control of Supercritical Processes: A Review Chapter 12 Microemulsions in Near Critical and Supercritical Fluids Chapter 13 Supercritical Fluid Extraction and Retrograde Condensation (SFE/RC) Chapter 14 Supercritical Extraction in Environment Control Chapter 15 Reactions In and With Supercritical Fluids Chapter 16 A Summary of the Patent Literature of Supercritical Fluid Technology Index
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