A Sodium Chloride−Zinc Chloride−Water System: Solubility of Solids and Density of Liquid in Wide Range of Temperatures. Belova, E. V., Mamontov, M. N., & Uspenskaya, I. A. Journal of Chemical and Engineering Data, 61(7):2426–2432, 2016. doi abstract bibtex The equilibrium phase diagrams of NaCl−ZnCl2− 6 H2O system at 260.35 and 250.15 K were studied by method of 7 isothermal solution saturation, wet residues, and thermogravi- 8 metric analysis. Water content in precipitate at these temperatures 9 for hydrate 2NaCl·ZnCl2·nH2O was determined, n = 3. Densities 10 of ternary NaCl−ZnCl2−H2O solutions were measured at 11 288.15−321.35 K and compared with values predicting by the 12 Laliberte model. It was shown that the model provides mainly 13 underestimated density values
@article{belova_sodium_2016,
title = {A {Sodium} {Chloride}−{Zinc} {Chloride}−{Water} {System}: {Solubility} of {Solids} and {Density} of {Liquid} in {Wide} {Range} of {Temperatures}},
volume = {61},
issn = {0021-9568},
doi = {10.1021/acs.jced.6b00048},
abstract = {The equilibrium phase diagrams of NaCl−ZnCl2− 6 H2O system at 260.35 and 250.15 K were studied by method of 7 isothermal solution saturation, wet residues, and thermogravi- 8 metric analysis. Water content in precipitate at these temperatures 9 for hydrate 2NaCl·ZnCl2·nH2O was determined, n = 3. Densities 10 of ternary NaCl−ZnCl2−H2O solutions were measured at 11 288.15−321.35 K and compared with values predicting by the 12 Laliberte model. It was shown that the model provides mainly 13 underestimated density values},
language = {english},
number = {7},
journal = {Journal of Chemical and Engineering Data},
author = {Belova, E. V. and Mamontov, M. N. and Uspenskaya, I. A.},
year = {2016},
pages = {2426--2432}
}
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