Binary Liquid Systems of Nonelectrolytes II

Binary Liquid Systems of Nonelectrolytes II

Author: Ivan Cibulka

Publisher: Springer

ISBN: 3642232760

Category: Science

Page: 604

View: 889

Vapor-liquid equilibrium data, heat of mixing (excess enthalpies), and volumetric properties of systems are required for both the applications in design of industrial technological processes and the understanding the structure and the intermolecular interactions in the systems. On the basis of classical thermodynamics the measured experimental data combined together enable us the calculation of non-measurable thermodynamic properties significant for the technological calculations. The present volume is a compilation of experimental and derived property data on subcritical binary homogeneous (single-phase) or heterogeneous (two-phase) liquid–liquid mixtures. All the components are well-defined pure substances, which are organic nonelectrolytes and water. The present volume is divided into three subvolumes (A, B, C). 800 representative data sets that cover all types of properties and chemical systems are selected for Subvolume A. While Subvolume B comprises 1032 data sets for binary mixtures containing one or two hydrocarbons, Subvolume C is providing 1014 data sets for non-hydrocarbon binary mixtures.
Binary Liquid Systems of Nonelectrolytes II
Language: en
Pages: 604
Authors: Ivan Cibulka, Jean-Claude Fontaine, Henry V. Kehiaian, K. Sosnkowska-Kehiaian
Categories: Science
Type: BOOK - Published: 2012-01-18 - Publisher: Springer

Vapor-liquid equilibrium data, heat of mixing (excess enthalpies), and volumetric properties of systems are required for both the applications in design of industrial technological processes and the understanding the structure and the intermolecular interactions in the systems. On the basis of classical thermodynamics the measured experimental data combined together enable
Binary Liquid Systems of Nonelectrolytes
Language: en
Pages: 575
Authors: H.V. Kehiaian
Categories: Chemistry, Physical and theoretical
Type: BOOK - Published: 2008 - Publisher:

Vapor–liquid equilibrium data form the basic information for chemical engineering calculations, in particular the design and operation of distillation plants in the chemical, pharmaceutical, polymer, petrochemical and related industries. The data are also important for understanding molecular interactions and developing theories of pure liquids and liquid mixtures because they are
Binary Liquid Systems of Nonelectrolytes III
Language: en
Pages: 596
Authors: Ivan Cibulka, Jean-Claude Fontaine, Henry V. Kehiaian, K. Sosnkowska-Kehiaian
Categories: Science
Type: BOOK - Published: 2012-01-18 - Publisher: Springer

Vapor-liquid equilibrium data, heat of mixing (excess enthalpies), and volumetric properties of systems are required for both the applications in design of industrial technological processes and the understanding the structure and the intermolecular interactions in the systems. On the basis of classical thermodynamics the measured experimental data combined together enable
Binary Liquid Systems of Nonelectrolytes I
Language: en
Pages: 500
Authors: Henry V. Kehiaian
Categories: Science
Type: BOOK - Published: 2011-06-24 - Publisher: Springer Science & Business Media

Vapor-liquid equilibrium data, heat of mixing (excess enthalpies), and volumetric properties of systems are required for both the applications in design of industrial technological processes and the understanding the structure and the intermolecular interactions in the systems. On the basis of classical thermodynamics the measured experimental data combined together enable
Binary Liquid Systems of Nonelectrolytes I
Language: en
Pages: 487
Authors: H. V. Kehiaian
Categories: Physics
Type: BOOK - Published: 2011 - Publisher:

Vapor-liquid equilibrium data, heat of mixing (excess enthalpies), and volumetric properties of systems are required for both the applications in design of industrial technological processes and the understanding the structure and the intermolecular interactions in the systems. On the basis of classical thermodynamics the measured experimental data combined together enable