Gas solubilities : widespread applications /

Gas Solubilities: Widespread Applications discusses several topics concerning the various applications of gas solubilities. The first chapter of the book reviews Henr's law, while the second chapter covers the effect of temperature on gas solubility. The third chapter discusses the various gase...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Gerrard, William
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford ; New York : Pergamon Press, 1980.
Edición:First edition.
Temas:
Solubility.
Gases.
Solubility
Gases
Solubilit�e.
Gaz.
solubility.
gas (material)
SCIENCE > Chemistry > Physical & Theoretical.
L�oslichkeit
Gas
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Gas Solubilities: Widespread Applications; Copyright Page; Table of Contents; Chapter 1. WHAT IS HENRY'S LAW?; 1.1. The Conventional Concept; 1.2. Bunsen's Heidelberg Group of 1855; 1.3. Ostwald's Absorption Coefficient; 1.4. Horiuti's Statements on the Ostwald Coefficient; 1.5. The Effect of the Vapour of Liquid S, the Solvent
  • 1.6. Other Examples of Confusion; Chapter 2. EFFECT OF TEMPERATURE ON GAS SOLUBILITY; 2.1. The Concept of Ideal Solubility
  • 2.2. Deviations from Ideal Solubility
  • 2.3. The Reference Line (R-line) Procedure; 2.4. Butane; 2.5. Propane.
  • 2.6. Ethane2.7. Methane; 2.8. Data on Hydrogen, Ethane, Ethene, and Propane, Reported by Waters, Mortimer, and Clements (1970); 2.9. Data on Hydrogen and Deuterium, by Cook, Hansen, and Alder (1957); 2.10. Solubility of Hydrogen in Organic Liquids
  • Data by Maxted and Moon (1936); 2.11. Lannung's Data on Helium, Neon, and Argon (1930); 2.12. The Work of Sisskind and Kasarnowsky (1931, 1933) on the Solubility of Argon ; 2.13. The Concept of Gas Solubility According to Phillips and Williams (1965); 2.14. The Solubility of Krypton
  • The Work of Korosy (1937), and van Liempt and van Wijk (1937).
  • 2.15. Further Comments on the Making and Filling of Holes2.16. R-line and ""Ideal"" Solubilities at 1 atm and Different Temperatures; 2.17. Data on the Noble Gases (He to Xe) by Clever, Battino, Saylor, and Gross; 2.18. Solubility of Argon in Alcohols, Carbon Bisulphide, and Perfluoroheptane: Data by Gjaldbaek and Niemann (1958); 2.19. Hildebrand and Colleagues on Solubility and Entropy of Solution; 2.20. The Theoretical Approach Based on Statistical Mechanics; 2.21. Solubility of Helium, Neon, Hydrogen, and Deuterium in Liquid Argon; Chapter 3. THE GASES USED BY HORIUTI.
  • 3.1. Two Aspects: Solubility and Dilation3.2. Solubility Data: Gases of Great Solubility
  • 3.3. Solubility of Gases at Medium Solubility
  • 3.4. Gases of Small Solubility
  • 3.5. Data for N2O by Kunerth; 3.6. Data on N2O by Yen and McKetta; 3.7. Data by Gjaldbaek for CO in Alcohols; Chapter 4. EVALUATION OF DATA ON SULPHUR DIOXIDE; 4.1. The Two Dominating Conventional Concepts; 4.2. The Muddle Over Henry's Law; 4.3. The Solubility of Sulphur Dioxide in Diethylaniline; 4.4. Solubility of SO2 in Benzene; 4.5. Data by Albright, Shannon, Yu, and Chueh (1963); 4.6. Data by Pfeifer (1963).
  • 4.7. Solubility in Di-n-butyl Ether4.8. Solubility in Ethylene Glycol at 0�C; 4.9. Solubility in Water; Chapter 5. EVALUATION OF CHLORINE DATA; 5.1. Principles and Methods of Measurements; 5.2. The Technique of Taylor and Hildebrand (1923); 5.3. Solubility in Hydrocarbons; 5.4. Solubility in Halogenated Hydrocarbons; 5.5. Solubility in Carbon Disulphide and its Chlorination Products; 5.6. Solubility in Organic Compounds Containing Oxygen; 5.7. Solubility in Inorganic Chlorides; 5.8. Solubility in Water; Chapter 6. EVALUATION OF SOLUBILITY DATA FOR HYDROGEN SULPHIDE.

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