Abstract
This work was completed in the framework of a cooperation between our institutes at Regensburg and in Lviv, registered under UKR–028–96 at the “Internationales Buro des Bundesministeriums fur Bildung, Wissenschaft, Forschung und Technologie (BMBF) bei der Deutschen Luft- und Raumfahrtgesellschaft (DLR)”, Germany, and Ministry on Science and Technology of Ukraine. The financial support of this contract is gratefully acknowledged.
Highlights
It is our pleasure to dedicate this article to I.R
To his work belongs a general scheme of plasma-parameter expansions for pair distribution functions of ionic fluids [1], the application of the collective variables method to the correct treatment of long and short-range interionic interactions [2] and the development of the ion-molecular approach for the correct description of solvation phenomena in electrolyte solutions [3,4,5,6]
Another important aspect of electrolyte solutions is connected with the ionic association concept introduced by Bjerrum [7] and used in the chemical model apc J.Barthel, H.Krienke, M.F.Holovko, V.I.Kapko, I.A.Protsykevich proach [8,9]
Summary
It is our pleasure to dedicate this article to I.R. Yukhnovskii whose fundamental work in statistical physics yielded a considerable progress in the theory of electrolyte solutions. To his work belongs a general scheme of plasma-parameter expansions for pair distribution functions of ionic fluids [1], the application of the collective variables method to the correct treatment of long and short-range interionic interactions [2] and the development of the ion-molecular approach for the correct description of solvation phenomena in electrolyte solutions [3,4,5,6]. Another important aspect of electrolyte solutions is connected with the ionic association concept introduced by Bjerrum [7] and used in the chemical model apc J.Barthel, H.Krienke, M.F.Holovko, V.I.Kapko, I.A.Protsykevich proach [8,9]. Applications used for the description of the concentration dependence of vapour pressures and conductivities of nonaqueous solutions of associating electrolytes will be discussed
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