Distribution of impurities during low-temperature directed crystallization of water solutions

被引:2
|
作者
Eksperiandova, L. P. [1 ]
Shcherbakov, I. B. [1 ]
机构
[1] Natl Acad Sci Ukraine, STC Inst Single Cystals, UA-61001 Kharkov, Ukraine
关键词
water solution; wastewater; drinking waters; low-temperature directed crystallization; impurity; distribution coefficient; freeze concentration;
D O I
10.1007/s10953-006-9047-8
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Trends in the distribution of impurities at low-temperature directed crystallization of water solutions of various concentrations are described and the mechanism of their incorporation in the solid phase is explained. The data on the distribution coefficients of the impurities between the solid and liquid phases are presented. It is shown that the behavior of the impurities in the process of directed crystallization is the same and does not depend on the nature of the macrocomponent. The unique case of CsI is explained due to the negative values of hydration of iodide and cesium ions. It is recommended to use the observed trends for the purification of water or analytical pre-concentration of impurities. The coefficients of enrichment of the impurities after low-temperature directed crystallization of aqueous solutions with different composition and total concentration of the dissolved salts are estimated and their dependencies on the composition and concentration of the aqueous solution are shown.
引用
收藏
页码:1075 / 1084
页数:10
相关论文
共 50 条
  • [21] Cluster Control System in Crystallization Setups for Crystal Growth from Low-Temperature Solutions
    Voloshin, A. E.
    Egorov, V. V.
    Kalinin, A. P.
    Manomenova, V. L.
    Rodionov, A. I.
    Rodionov, I. D.
    Rudneva, E. B.
    CRYSTALLOGRAPHY REPORTS, 2019, 64 (02) : 363 - 365
  • [22] CRYSTALLIZATION OF AMORPHOUS PD-SI ALLOY DURING LOW-TEMPERATURE ANNEALING
    MAEDA, M
    MUKASA, K
    KUDO, Y
    SCIENCE REPORTS OF THE RESEARCH INSTITUTES TOHOKU UNIVERSITY SERIES A-PHYSICS CHEMISTRY AND METALLURGY, 1980, 28 : 118 - 123
  • [23] CRYSTALLIZATION OF LOW-TEMPERATURE RUBIDIUM NEODYMIUM TUNGSTATE
    POSTUPAEVA, AG
    KOZEEVA, LP
    PAVLYUK, AA
    KHARCHENKO, LY
    INORGANIC MATERIALS, 1988, 24 (08) : 1141 - 1144
  • [24] Low-temperature crystallization of poly(butylene succinate)
    Di Lorenzo, Maria Laura
    Androsch, Rene
    Righetti, Maria Cristina
    EUROPEAN POLYMER JOURNAL, 2017, 94 : 384 - 391
  • [25] Low-temperature crystallization of the fatty acids and glycerides
    Brown, JB
    CHEMICAL REVIEWS, 1941, 29 (02) : 333 - 354
  • [26] PROGRESSIVE CRYSTALLIZATION AND ORDERING OF LOW-TEMPERATURE DOLOMITES
    SCHNEIDER, H
    MINERALOGICAL MAGAZINE, 1976, 40 (314) : 579 - 587
  • [27] Low-temperature crystallization of mechanically amorphized graphite
    Surov, DV
    Lomovskii, OI
    Boldyrev, VV
    INORGANIC MATERIALS, 2006, 42 (02) : 116 - 120
  • [28] LOW-TEMPERATURE CRYSTALLIZATION OF AMORPHOUS SILICON FILMS
    MAA, JS
    LIN, SJ
    THIN SOLID FILMS, 1979, 64 (01) : 63 - 64
  • [29] KINETIC SPECIFICITIES OF POLYMER LOW-TEMPERATURE CRYSTALLIZATION
    TEITELBAUM, BY
    DOKLADY AKADEMII NAUK SSSR, 1975, 222 (05): : 1155 - 1158
  • [30] Low-temperature crystallization of mechanically amorphized graphite
    D. V. Surov
    O. I. Lomovskii
    V. V. Boldyrev
    Inorganic Materials, 2006, 42 : 116 - 120