1. CTAS
  2. All Volumes and Issues
  3. Volume 5, Number 2
  4. EVAPORATION THERMODYNAMICS FOR SOLUTIONS OF DIMETHYLZINC AND DIMETHYLTELLURIDE

EVAPORATION THERMODYNAMICS FOR SOLUTIONS OF DIMETHYLZINC AND DIMETHYLTELLURIDE

CTAS.
2022;
Volume 5, Number 2
: 37-46
https://doi.org/10.23939/ctas2022.02.037
Authors:
  1. Serhiy Gerasymchuk
  2. Ihor Poliuzhyn
  3. Lilianna Oliynyk
  4. Tetiana Hnativ
1
Lviv Polytechnic National University
2
Lviv Polytechnic National University
3
Lviv Polytechnic National University
4
Lviv Polytechnic National University

In the work with the help of a static method with a membrane zero-manometer, the liquid- vapor balance in the system “dimethylzinc – dimethyl telluride” in the temperature range 270– 360 K with the content of dimethylzinc as 50.00 and 70.32 % mol. The total vapor pressure was measured for both saturated and unsaturated vapors for different samples. It was found that these solutions are not azeotropic. Using the equation of state PV = nRT, according to the thermal expansion of unsaturated vapor, the average molecular weight was calculated for mixtures “dimethylzinc – dimethyltelluride” mentioned compositions. The results of this calculation indicate the absence of significant association between molecules of the solution components in the gas phase.

dimethylzinc; dimethyltelluride; solution; vapor pressure; average molecular weight; static tensimetric method.
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