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Time-Resolved Inverse Gas Chromatography and Its Applications |
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Nicholas A. Katsanos and George Karaiskakis |
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$55.00 |
June 2004 |
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Contents
Chapter 1
THE GAS CHROMATOGRAPHIC METHOD
I. Introduction
II. Gas Chromatographic Methods and Terminology
III. Elementary Mathematics of Inverse Gas
Chromatography
IV. Experimental Corrections on Net Retention
Volumes
V. Broadening and Asymmetry of the
VI. The van Deemter Equation
References
Chapter 2
INVERSE GAS CHROMATOGRAPHY
I. Introduction
II. Differential Enthalpy and Entropy of
Adsorption
III. Surface Energy of Solids
IV. Inverse Gas-liquid Chromatography
V. Adsorption Isotherms
A. Step-and-Pulse Method
B. A Chromatographic Dynamic Technique
VI. Phase Transitions in Polymers
VII. The Flory-Huggins Interaction Parameter
VIII. Concluding Remarks
References
Chapter 3
TIME-RESOLVED CHROMATOGRAPHY
II. The Basic Mathematical Model and Its Solution
III. Calculations Based on the Mathematical Model
IV. Time-Resolved Calculations
V. Typical Examples of Time-Resolved Quantities
Appendix 3A
Appendix 3B
References
Chapter 4
PRACTICAL APPLICATIONS OF
TIME-RESOLVED GAS CHROMATOGRAPHY
II. Lateral Molecular Interactions
III. Surface Diffusion Coefficients
IV. Adsorption Rates on Heterogeneous Surfaces
V. Surface Energy on Heterogeneous Surfaces
VI. Effectiveness Factors in Heterogeneous
Catalysis
VII. Summary of the Applications According to the
Scientific Fields
VIII. Representative Practical Applications
A. The Damage Measurement for the Action of Air
Pollutants (SO2, NO2, etc.) on Marbles and Monuments
B. The Study of Action of Hydrocarbon Pollutants
on Pigments
C. Characterization of
D. Study of the Exchange of Pollutants Between
the Atmosphere and the Water Environment
E. Study of the Interaction of Vinyl Chloride
With Polyvinyl Chloride and Liquid Foods
F. Determination of the Composition of Gas
Mixtures from the Measured Diffusion Coefficients
Appendix
4A
Appendix
4B
Appendix
4C
Appendix
4D
References