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Supercritical Fluid Technology (1991)

Thomas J. Bruno | James F. Ely
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A. Nieto De Castro
A01=James F. Ely
A01=Thomas J. Bruno
advanced supercritical extraction techniques
American Chemical Society
Apparent Activation Volume
Author_James F. Ely
Author_Thomas J. Bruno
Aydin Akgerman
Benjamin C. Wu
Binary Interaction Parameter
Category=PNF
Charles A. Eckert
Concetta Lamarca
Continuous Phase Solvent
Eloy E. Martinelli
environmental process engineering
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eq_isMigrated=1
eq_isMigrated=2
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Eric J. Beckman
Fugacity Coefficient
G. Ali Mansoori
Henry D. Cochran
Infinitely Dilute
J. M. H. Levelt Sengers
James C. Rainwater
James F. Ely
Joan F. Brennecke
Joe W. Magee
John L. Fulton
K. S. Shing
Karl Schulz
Lloyd L. Lee
mass transfer analysis
Mathematical
Michael C. Jones
Michael P. Ekart
Michael T. Klein
Microscopic
Miriam L. Cygnarowicz
Mixtures
molecular simulation methods
Pablo G. Debenedetti
Partial Molar
Partial Molar Properties
Partial Molar Volume
phase equilibria modeling
PVT Data
Richard D. Smith
Richard K. Hess
Robert K. Roop
Sang-Do Yeo
SCE Process
Scf
Scf Chromatograph
Scf Phase
Scf Solution
SFE
SFE Applications
Stephen C. Paspek
Supercritical Ethane
Supercritical Extraction
Supercritical Fluid Solvents
Supercritical Fluid Technology
Supercritical Solvent
Supercritical Water
Theoretical
Thermal Conductivity
Thermophysical Properties
thermophysical property data
Transient Hot Wire Technique
V. Vesovic
vapor liquid equilibrium
W.A. Wakeham
Warren D. Seider

Product details

  • ISBN 9781138561984
  • Weight: 453g
  • Dimensions: 178 x 254mm
  • Publication Date: 28 Jan 2019
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
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Description

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.
About James F. Ely | Thomas J. Bruno

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.

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