Conductivities of the Ternary Systems Y(NO3)3+La(NO3)3+H2O, La(NO3)3+Ce(NO3)3+H2O, La(NO3)3+Nd(NO3)3+H2O and Their Binary Subsystems at Different Temperatures

被引:0
|
作者
Yu-Feng Hu
Chuan-Wei Jin
Jin-Zhu Zhang
Shan Ling
机构
[1] China University of Petroleum,State Key Laboratory of Heavy Oil Processing, High Pressure Fluid Phase Behavior and Property Research Laboratory
来源
Journal of Solution Chemistry | 2011年 / 40卷
关键词
Conductivity; Rare earth nitrates; Aqueous mixed solutions; Conductivity prediction;
D O I
暂无
中图分类号
学科分类号
摘要
Electrical conductivities were measured for the ternary systems Y(NO3)3+La(NO3)3+H2O, La(NO3)3+Ce(NO3)3+H2O, La(NO3)3+Nd(NO3)3+H2O, and their binary subsystems Y(NO3)3+H2O, La(NO3)3+H2O, Ce(NO3)3+H2O, and Nd(NO3)3+H2O at (293.15, 298.15 and 308.15) K. The measured conductivities were used to test the generalized Young’s rule and the semi-ideal solution theory. The comparison results show that the generalized Young’s rule and the semi-ideal solution theory can yield good predictions for the conductivities of the ternary electrolyte solutions, implying that the conductivities of aqueous solutions of (1:3 + 1:3) electrolyte mixtures can be well predicted from those of their constituent binary solutions by the simple equations.
引用
收藏
页码:1447 / 1457
页数:10
相关论文
共 50 条
  • [41] PROPERTIES OF SOLUTIONS OF SR(NO3)2-NI(NO3)2-H2O AND BA(NO3)2-NI(NO3)2-H2O SYSTEMS AT 25 DEGREES C
    ANDREEVA, TA
    POZHARSK.SS
    ZHURNAL NEORGANICHESKOI KHIMII, 1973, 18 (12): : 3323 - 3328
  • [42] PARAMAGNETIC RESONANCE OF GD3+-DOPED LA(NO3)3.6H2O AND ND(NO3)3.6H2O SINGLE CRYSTALS
    SINGH, GB
    VENKATESWARLU, P
    JOURNAL OF CHEMICAL PHYSICS, 1967, 46 (12): : 4765 - +
  • [43] Phase Diagram of the Quaternary Al(NO3)3-Cu(NO3)2-Zn(NO3)2-H2O System
    L. Lâallam
    A. Jouaiti
    A. Barroug
    S. El Allali
    J. Berthet
    R. Tenu
    J. J. Counioux
    Journal of Phase Equilibria and Diffusion, 2011, 32 : 543 - 550
  • [44] Phase Diagram of the Quaternary Al(NO3)3-Cu(NO3)2-Zn(NO3)2-H2O System
    Laallam, L.
    Jouaiti, A.
    Barroug, A.
    El Allali, S.
    Berthet, J.
    Tenu, R.
    Counioux, J. J.
    JOURNAL OF PHASE EQUILIBRIA AND DIFFUSION, 2011, 32 (06) : 543 - 550
  • [45] Solubility Modeling of the Systems Ni(NO3)2–H2O and Fe(NO3)3–Ni(NO3)2–H2O with the Extended Universal Quasichemical (UNIQUAC) Model
    Mouad Arrad
    Mohammed Kaddami
    Bahija El Goundali
    Kaj Thomsen
    Journal of Solution Chemistry, 2017, 46 : 1220 - 1229
  • [46] PHYSICOCHEMICAL AND THERMODYNAMIC PROPERTIES OF SR(NO3)2-CO(NO3)2-H2O AND BA(NO3)2-CO(NO3)2-H2O SYSTEMS AT 25DEGREESC
    ANDREEVA, TA
    SAVENKO, AS
    ZHURNAL NEORGANICHESKOI KHIMII, 1976, 21 (11): : 3073 - 3077
  • [47] LN(NO3)3-M(NO3)2-H2O SYSTEMS AT 25 DEGREES C
    YAKIMOV, MA
    GUZHAVIN.EI
    ZHURNAL NEORGANICHESKOI KHIMII, 1971, 16 (02): : 507 - &
  • [48] Effects of Er(NO3)3, Nd(NO3)3 and Y(NO3)3 on kinetics of dehydroxylation of kaolinite
    Kuang, Jingzhong
    Yuan, Weiquan
    Li, Lin
    Hu, Jin
    Xu, Liyong
    POWDER TECHNOLOGY, 2016, 301 : 581 - 589
  • [49] SOLUBILITY POLYTHERM OF THE BA(NO3)2-AL(NO3)3-H2O SYSTEM
    DRYUCHKO, AG
    KISEL, NN
    STOROZHENKO, DA
    SHEVCHUK, VG
    ZHURNAL NEORGANICHESKOI KHIMII, 1982, 27 (03): : 804 - 805
  • [50] LA(NO3)3-RBNO3-H2O SYSTEM AT 25DEGREESC
    MOLODKIN, AK
    ODINETS, ZK
    PONSE, OV
    ZHURNAL NEORGANICHESKOI KHIMII, 1976, 21 (09): : 2590 - 2593
12345