| 298 K时三元体系MeSO4-(NH4)2SO4-H2O的相平衡 |
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| 引用本文: | 慕思国,彭长宏,黄虹,唐谟堂. 298 K时三元体系MeSO4-(NH4)2SO4-H2O的相平衡[J]. 过程工程学报, 2006, 6(1): 32-36 |
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| 作者姓名: | 慕思国 彭长宏 黄虹 唐谟堂 |
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| 作者单位: | 中南大学冶金科学与工程学院环境工程研究所,湖南,长沙,410083;中南大学冶金科学与工程学院环境工程研究所,湖南,长沙,410083;中南大学冶金科学与工程学院环境工程研究所,湖南,长沙,410083;中南大学冶金科学与工程学院环境工程研究所,湖南,长沙,410083 |
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| 基金项目: | 中国科学院资助项目 , 国家科技攻关项目 |
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| 摘 要: | 用等温溶解平衡法研究了298 K时MeSO4-(NH4)2SO4-H2O三元体系的溶解度,并绘制了平衡相图. 结果表明,在MnSO4-(NH4)2SO4-H2O体系中,有MnSO4×H2O, (NH4)2Mn(SO4)2×6H2O和(NH4)2SO4 3条饱和曲线,组成为MnSO4×H2O和(NH4)2Mn(SO4)2×6H2O及(NH4)2Mn(SO4)2×6H2O和(NH4)2SO4的2个共饱和点,以及平衡固相为(NH4)2SO4, (NH4)2Mn(SO4)2×6H2O和MnSO4×H2O的3个纯盐结晶区. 在ZnSO4-(NH4)2SO4-H2O体系中,有(NH4)2Zn(SO4)2×6H2O, ZnSO4×7H2O与(NH4)2SO4 3条饱和曲线,组成为(NH4)2Zn(SO4)2×6H2O和ZnSO4×7H2O及(NH4)2SO4和(NH4)2Zn(SO4)2×6H2O的2个共饱和点,以及平衡固相为(NH4)2Zn(SO4)2×6H2O, ZnSO4×7H2O和(NH4)2SO4的3个纯盐结晶区. 在(NH4)2SO4-FeSO4-H2O体系中,有(NH4)2Fe(SO4)2×6H2O, FeSO4×7H2O和(NH4)2SO4的3条饱和曲线,组成为(NH4)2Fe(SO4)2×6H2O和FeSO4×7H2O及(NH4)2Fe(SO4)2×6H2O和(NH4)2SO4的2个共饱和点,以及平衡固相为(NH4)2Fe(SO4)2×6H2O, FeSO4×7H2O和(NH4)2SO4的3个纯盐结晶区. 研究结果既为含Fe2+, Mn2+和Zn2+溶液的复盐沉淀深度净化提供了理论指导,同时也为四元体系的研究奠定了基础.
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| 关 键 词: | 溶解度 水盐体系 相平衡 |
| 文章编号: | 1009-606X(2006)01-0032-05 |
| 收稿时间: | 2005-04-07 |
| 修稿时间: | 2005-04-072005-05-23 |
Equilibrium Solubility in Ternary System of MeSO4-(NH4)2SO4-H2O at 298 K |
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| MU Si-guo,PENG Chang-hong,HUANG Hong,TANG Mo-tang. Equilibrium Solubility in Ternary System of MeSO4-(NH4)2SO4-H2O at 298 K[J]. Chinese Journal of Process Engineering, 2006, 6(1): 32-36 |
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| Authors: | MU Si-guo PENG Chang-hong HUANG Hong TANG Mo-tang |
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| Affiliation: | Institute of Environmental Engineering, School of Metallurgical Science and Engineering, Central South University |
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| Abstract: | The phase equilibrium in the ternary system of MeSO4-(NH4)2SO4-H2O at 298 K was studied by isothermal equilibrium method and many significant experimental results were obtained. In the ternary system of MnSO4-(NH4)2SO4-H2O, there were 3 saturation curves given by MnSO4×H2O, (NH4)2Mn(SO4)2×6H2O and (NH4)2SO4, respectively. There were 2 co-saturation points, A having the composition of MnSO4×H2O and (NH4)2Mn(SO4)2×6H2O, and B given by (NH4)2Mn(SO4)2×6H2O and (NH4)2SO4. There were 3 purification crystallization areas given by (NH4)2Mn(SO4)2×6H2O, MnSO4×H2O and (NH4)2SO4, respectively. In the ternary system of ZnSO4-(NH4)2SO4-H2O, there were 3 saturation curves given by (NH4)2Zn(SO4)2×6H2O, ZnSO4×7H2O and (NH4)2SO4, respectively. There were 2 co-saturation points, C having the composition of (NH4)2Zn(SO4)2×6H2O and ZnSO4×7H2O, and D given by (NH4)2SO4 and (NH4)2Zn(SO4)2×6H2O, respectively. There were 3 purification crystallization areas given by (NH4)2Zn(SO4)2·6H2O, ZnSO4×7H2O and (NH4)2SO4, respectively. In the ternary system of FeSO4-(NH4)2SO4-H2O, there were 3 saturation curves given by (NH4)2Fe(SO4)2·6H2O, FeSO4×7H2O and (NH4)2SO4, respectively. There were 2 co-saturation points, E having the composition of (NH4)2Fe(SO4)2×6H2O and FeSO4×7H2O, and F given by (NH4)2Fe(SO4)2×6H2O and (NH4)2SO4, respectively. There were 3 purification crystallization areas of FeSO4×7H2O, (NH4)2Fe(SO4)2×6H2O and (NH4)2SO4, respectively. These experimental results gained above not only give theoretical guidance for the double-salt precipitation deep purification of such solutions containing Fe2+, Mn2+ and Zn2+, etc., but also establish foundation for study on the quarternary system consisting of Fe2+, Mn2+, Zn2+ and NH4+/SO42--H2O. |
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| Keywords: | solubility salt-water system phase equilibrium |
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