DEPENDENCE OF THE HELMHOLZ ENERGY FROM THE TEMPERATURE OF FLASH N-ALKYL BENZENS

The number of organic compounds has exceeded 40 million and further increases by 300 thousand each year. To ensure the fi re safety and the accuracy of the production process design, as well as the safe storage and transportation of materials, it is necessary to determine the level of fi re and exp...

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Main Authors: Suntsov Yuri K., Sorokina Yuliya N.
Format: Article
Language:English
Published: Voronezh State University 2017-12-01
Series:Конденсированные среды и межфазные границы
Subjects:
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author Suntsov Yuri K.
Sorokina Yuliya N.
author_facet Suntsov Yuri K.
Sorokina Yuliya N.
author_sort Suntsov Yuri K.
collection DOAJ
description The number of organic compounds has exceeded 40 million and further increases by 300 thousand each year. To ensure the fi re safety and the accuracy of the production process design, as well as the safe storage and transportation of materials, it is necessary to determine the level of fi re and explosion hazard of various substances. It is therefore extremely important to develop a method for determining the fi re hazard indicators and thermodynamic properties of substances, based on the minimum amount of experimental data. To solve this problem we consider it necessary to determine the dependencies between the molecular characteristics and the thermodynamic properties of homologous substances. The focus of the present research is on the homologous series of n-alkyl benzenes. The analysis determined that the thermodynamic functions of substances additively depend on the molar weight of n-alkyl benzenes in the homologous series. Similar dependence was observed for the fl ash point of n-alkyl benzenes. Taking into account the fact that the fl ash point values and the Helmholtz energy tend to change depending on the molar weight of the substances in the homologous series, it seems practical to establish their interrelation. The corresponding equations were derived. Similar dependencies were previously observed for the homologous series of n-alkyletanoats, aliphatic ketones, n-alkylamines, and alcohols.The established regularities and proposed equations allow us to forecast the properties of homologous series of substances with suffi cient accuracy.
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spelling doaj.art-b6dfd8391b084293a7b09bd13661bc332022-12-22T03:56:48ZengVoronezh State UniversityКонденсированные среды и межфазные границы1606-867X1606-867X2017-12-0119457357610.17308/kcmf.2017.19/239DEPENDENCE OF THE HELMHOLZ ENERGY FROM THE TEMPERATURE OF FLASH N-ALKYL BENZENSSuntsov Yuri K. 0Sorokina Yuliya N.1Dr. Sci. (Chem.), Professor, Head of the Department of Life Safety, Voronezh State Pedagogical UniversityCand. Sci. (Eng.), Docent, Associate Professor of the Chemistry and Combustion Department, Voronezh Institute of State Firefi ghting Service of Emercom of RussiaThe number of organic compounds has exceeded 40 million and further increases by 300 thousand each year. To ensure the fi re safety and the accuracy of the production process design, as well as the safe storage and transportation of materials, it is necessary to determine the level of fi re and explosion hazard of various substances. It is therefore extremely important to develop a method for determining the fi re hazard indicators and thermodynamic properties of substances, based on the minimum amount of experimental data. To solve this problem we consider it necessary to determine the dependencies between the molecular characteristics and the thermodynamic properties of homologous substances. The focus of the present research is on the homologous series of n-alkyl benzenes. The analysis determined that the thermodynamic functions of substances additively depend on the molar weight of n-alkyl benzenes in the homologous series. Similar dependence was observed for the fl ash point of n-alkyl benzenes. Taking into account the fact that the fl ash point values and the Helmholtz energy tend to change depending on the molar weight of the substances in the homologous series, it seems practical to establish their interrelation. The corresponding equations were derived. Similar dependencies were previously observed for the homologous series of n-alkyletanoats, aliphatic ketones, n-alkylamines, and alcohols.The established regularities and proposed equations allow us to forecast the properties of homologous series of substances with suffi cient accuracy.saturated vapor pressure; molar volumeinternal energyentropy and Helmholtz energythe fl ash pointcorrelation equations
spellingShingle Suntsov Yuri K.
Sorokina Yuliya N.
DEPENDENCE OF THE HELMHOLZ ENERGY FROM THE TEMPERATURE OF FLASH N-ALKYL BENZENS
Конденсированные среды и межфазные границы
saturated vapor pressure; molar volume
internal energy
entropy and Helmholtz energy
the fl ash point
correlation equations
title DEPENDENCE OF THE HELMHOLZ ENERGY FROM THE TEMPERATURE OF FLASH N-ALKYL BENZENS
title_full DEPENDENCE OF THE HELMHOLZ ENERGY FROM THE TEMPERATURE OF FLASH N-ALKYL BENZENS
title_fullStr DEPENDENCE OF THE HELMHOLZ ENERGY FROM THE TEMPERATURE OF FLASH N-ALKYL BENZENS
title_full_unstemmed DEPENDENCE OF THE HELMHOLZ ENERGY FROM THE TEMPERATURE OF FLASH N-ALKYL BENZENS
title_short DEPENDENCE OF THE HELMHOLZ ENERGY FROM THE TEMPERATURE OF FLASH N-ALKYL BENZENS
title_sort dependence of the helmholz energy from the temperature of flash n alkyl benzens
topic saturated vapor pressure; molar volume
internal energy
entropy and Helmholtz energy
the fl ash point
correlation equations
work_keys_str_mv AT suntsovyurik dependenceofthehelmholzenergyfromthetemperatureofflashnalkylbenzens
AT sorokinayuliyan dependenceofthehelmholzenergyfromthetemperatureofflashnalkylbenzens