Vladimir Diky
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View article: An Accurate Thermodynamic Model to Characterise Dissociating N2O4 at Vapour–Liquid Equilibrium States
An Accurate Thermodynamic Model to Characterise Dissociating N2O4 at Vapour–Liquid Equilibrium States Open
A new thermodynamic model is presented, capable of accurately representing the vapour–liquid equilibrium pressures and densities, and liquid phase densities and enthalpies of dissociating dinitrogen tetroxide (N 2 O 4 ⇄ 2NO 2 ). The model …
View article: Assessment of a Parachor Model for the Surface Tension of Binary Mixtures
Assessment of a Parachor Model for the Surface Tension of Binary Mixtures Open
We compiled an experimental database for the surface tension of binary mixtures containing a wide variety of fluids, from the chemical classes (water, alcohols, amines, ketones, linear and branched alkanes, naphthenes, aromatics, refrigera…
View article: Reference materials for phase equilibrium studies. 2. Solid–liquid equilibria (IUPAC Technical Report)
Reference materials for phase equilibrium studies. 2. Solid–liquid equilibria (IUPAC Technical Report) Open
This article is the second of three projected IUPAC Technical Reports on reference materials for phase equilibrium studies. The goal of this project was to select reference systems with critically evaluated property values for the verifica…
View article: An Overview of Ukrainian Thermophysics Research (1926 to 2022)
An Overview of Ukrainian Thermophysics Research (1926 to 2022) Open
View article: Scientific publications and data evaluation in the digital age (a perspective of a thermodynamics researcher)
Scientific publications and data evaluation in the digital age (a perspective of a thermodynamics researcher) Open
View article: Editor’s Preface for the Special Issue Dedicated to Memory of Prof. Talgat Khasanshin (1942–2018)
Editor’s Preface for the Special Issue Dedicated to Memory of Prof. Talgat Khasanshin (1942–2018) Open
View article: Reference materials for phase equilibrium studies. 1. Liquid–liquid equilibria (IUPAC Technical Report)
Reference materials for phase equilibrium studies. 1. Liquid–liquid equilibria (IUPAC Technical Report) Open
This article is the first of three projected IUPAC Technical Reports resulting from IUPAC Project 2011-037-2-100 (Reference Materials for Phase Equilibrium Studies). The goal of this project is to select reference systems with critically e…
View article: Evaluation of experimental and predicted vapor-liquid equilibrium data for systems relevant to biomass fast pyrolysis and catalytic upgrading
Evaluation of experimental and predicted vapor-liquid equilibrium data for systems relevant to biomass fast pyrolysis and catalytic upgrading Open
The experimental vapor-liquid equilibrium (VLE) data for the binaries relevant to the catalytic fast pyrolysis of biomass have been collected and analyzed using the NIST-COSMO-SAC and NIST-modified UNIFAC models. The existing inconsistenci…
View article: Good reporting practice for thermophysical and thermochemical property measurements (IUPAC Technical Report)
Good reporting practice for thermophysical and thermochemical property measurements (IUPAC Technical Report) Open
Scientific projects frequently involve measurements of thermophysical, thermochemical, and other related properties of chemical compounds and materials. These measured property data have significant potential value for the scientific commu…
View article: Bubble Point Measurements of Neopentane + Ethane Mixtures
Bubble Point Measurements of Neopentane + Ethane Mixtures Open
Bubble point measurements have been taken on three compositions of the neopentane + ethane system. The results are modeled with a Peng-Robinson equation with symmetrical mixing rule and a Helmholtz-energy-based 4-parameter model. Interacti…
View article: Thermodynamic properties of organic substances: Experiment, modeling, and technological applications
Thermodynamic properties of organic substances: Experiment, modeling, and technological applications Open
View article: Liquid–Liquid Equilibrium Measurements for Model Systems Related to Catalytic Fast Pyrolysis of Biomass
Liquid–Liquid Equilibrium Measurements for Model Systems Related to Catalytic Fast Pyrolysis of Biomass Open
Here in this paper we report liquid-liquid mutual solubilities for binary aqueous mixtures involving 2-, 3-, and 4-ethylphenol, 2-, 3-, and 4-methoxyphenol, benzofuran, and 1H-indene for the temperature range (300 < T/K < 360). Measurement…
View article: Citation Block
Citation Block Open
View article: Schema Validation: Extent and Strategy
Schema Validation: Extent and Strategy Open
ThermoML is an Extensible Markup Language (XML)-based new IUPAC standard for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. The basic principles, scope, and descri…
View article: Structural Elements for Speciation and Complex Equilibria
Structural Elements for Speciation and Complex Equilibria Open
ThermoML is an XML-based approach for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. Extensions to the ThermoML schema for the representation of speciation, comple…
View article: Description of the ThermoML Schema
Description of the ThermoML Schema Open
ThermoML is an Extensible Markup Language (XML)-based new IUPAC standard for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. The basic principles, scope, and descri…
View article: Conventions for Names of Elements in the ThermoML Schema
Conventions for Names of Elements in the ThermoML Schema Open
ThermoML is an Extensible Markup Language (XML)-based new IUPAC standard for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. The basic principles, scope, and descri…
View article: ThermoML Elements for the Expression of Uncertainties
ThermoML Elements for the Expression of Uncertainties Open
View article: Extension of ThermoML: The IUPAC Standard for Thermodynamic Data Communications
Extension of ThermoML: The IUPAC Standard for Thermodynamic Data Communications Open
ThermoML is an XML-based approach for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. Extensions to the ThermoML schema for the representation of speciation, comple…
View article: General Structure of Schema Elements for Expression of Uncertainties and Precisions
General Structure of Schema Elements for Expression of Uncertainties and Precisions Open
ThermoML is an Extensible Markup Language (XML)-based new IUPAC standard for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. The basic principles, scope, and descri…
View article: ThermoML Elements for the Expression of Precisions
ThermoML Elements for the Expression of Precisions Open
View article: Methods for Properties of Reactions
Methods for Properties of Reactions Open
View article: Logarithmic Representation of Equilibrium Constants
Logarithmic Representation of Equilibrium Constants Open
ThermoML is an XML-based approach for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. Extensions to the ThermoML schema for the representation of speciation, comple…
View article: Use Cases and ThermoML Schema Text
Use Cases and ThermoML Schema Text Open
ThermoML is an Extensible Markup Language (XML)-based new IUPAC standard for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. The basic principles, scope, and descri…
View article: Scope of Extensions for Biothermodynamic Data
Scope of Extensions for Biothermodynamic Data Open
ThermoML is an XML-based approach for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. Extensions to the ThermoML schema for the representation of speciation, comple…
View article: Data Representation
Data Representation Open
ThermoML is an Extensible Markup Language (XML)-based new IUPAC standard for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. The basic principles, scope, and descri…
View article: Crystal Phase Specification Details
Crystal Phase Specification Details Open
ThermoML is an XML-based approach for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. Extensions to the ThermoML schema for the representation of speciation, comple…
View article: Extensions in the Compound Block for Improved Substance Specification
Extensions in the Compound Block for Improved Substance Specification Open
ThermoML is an XML-based approach for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. Extensions to the ThermoML schema for the representation of speciation, comple…
View article: Elements in ThermoML for Equation Representation of Property Data in ThermoML
Elements in ThermoML for Equation Representation of Property Data in ThermoML Open
View article: Representation of Enthalpies for the Process of Mixing Solutions With Solvent Components in Common
Representation of Enthalpies for the Process of Mixing Solutions With Solvent Components in Common Open
ThermoML is an XML-based approach for storage and exchange of experimental, predicted, and critically evaluated thermophysical and thermochemical property data. Extensions to the ThermoML schema for the representation of speciation, comple…