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| 不同体系中黄河沉积物对La3+的吸附特性 | |
| 引用本文: | 米娜,何江,匡运臣,樊庆云,张翼明,王霞,关伟,李桂海,李朝生,王新伟. 不同体系中黄河沉积物对La3+的吸附特性[J]. 稀土, 2004, 25(1): 48-51 |
| 作者姓名: | 米娜 何江 匡运臣 樊庆云 张翼明 王霞 关伟 李桂海 李朝生 王新伟 |
| 作者单位: | 1. 内蒙古大学,生态与环境科学系,内蒙古,呼和浩特,010021 2. 包头市环境监测站,内蒙古,包头,014030 3. 包头稀土研究院,内蒙古,包头,014010 |
| 基金项目: | 内蒙古自然科学基金;内蒙古人才开发基金;内蒙古"111工程"基金 |
| 摘 要: | 对比实验研究揭示,不同体系中La3 的吸附等温线类型差别较大,单离子体系中La3 的吸附属于典型的一级吸附模式,多离子体系中,La3 的吸附等温线呈不规则变化,用现有的等温吸附方程均不能较好拟合其等温吸附过程;不同体系中La3 的pH突跃区域无显著性差异;随温度的升高,单离子体系中,表层沉积物对La3 的吸附量增加,多离子体系中则降低;随着泥沙浓度、离子强度的增加和有机质的去除,表层沉积物对La3 的吸附量均降低,而且悬浮物对La3 的吸附量大于表层沉积物。 |
| 关 键 词: | 黄河沉积物 吸附 单离子体系 多离子体系 |
| 文章编号: | 1004-0277(2004)01-0048-05 |
| 修稿时间: | 2003-06-10 |
Study on Adsorption of the Yellow River Sediment on La3+ in Different System |
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| MI Na,HE Jiang,KUANG Yun-chen,FAN Qing-yun,ZHANG Yi-ming,WANG Xia,GUAN Wei,LI Gui-hai,LI Chao-sheng,WANG Xin-wei. Study on Adsorption of the Yellow River Sediment on La3+ in Different System[J]. Chinese Rare Earths, 2004, 25(1): 48-51 | |
| Authors: | MI Na HE Jiang KUANG Yun-chen FAN Qing-yun ZHANG Yi-ming WANG Xia GUAN Wei LI Gui-hai LI Chao-sheng WANG Xin-wei |
| Affiliation: | MI Na~1,HE Jiang~1,KUANG Yun-chen~2,FAN Qing-yun~2,ZHANG Yi-ming~3,WANG Xia~2,GUAN Wei~1,LI Gui-hai~1,LI Chao-sheng~1,WANG Xin-wei~1 |
| Abstract: | The study showed that the difference of La~(3 ) adsorption isotherm were obvious in different systems, La~(3 ) adsorption isotherm was a typical adsorption pattern in single-ion system, and that was anomalistic adsorption pattern in multi-ion system. The pH dependent curves were no significantly different in different systems. The adsorption capacity of La~(3 ) was increasing in single-ion system. but that was decreasing in multi-ion system with increasing temperature. The adsorption capacity of La~(3 ) were all decreasing with increasing silt concentration and ion intensity and wiping organic matter.The adsorption capacity of La~(3 ) in suspended matter was more than that in surface sediment. |
| Keywords: | Yellow River sediment adsorption single-ion system multi-ion system |
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