Adsorption removal of Ni(ll) from aqueous solution by raw and acid-activated kaolinite

机译：通过原料和酸活化高岭石从水溶液中吸附Ni（L1）

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X-ray diffraction (XRD), scanning electron microscopy (SEM), nitrogen physical adsorption, potentiometric titrations and batch adsorption experiments were employed to characterize the crystal structure, micromorphologies and surface properties of raw kaolinite (RKao) and acid-activated kaolinite (AAKao). Compared to RKao, the particle size of AAKao became smaller, but the specific surface area (SSA), cation exchange capacity (CEC) and surface negative charge at pH 5.5 increased. The adsorption capacity (q_(max)) for Ni(II) of RKao and AAKao was 3.25 mg/g and 5.09 mg/g, respectively. The adsorption data for Ni(II) by RKao and AAKao could be fitted by Langmuir model (R~2 =0.991 and 0.989, respectively).

机译：X射线衍射（XRD），扫描电子显微镜（SEM），氮气物理吸附，电位滴定和批量吸附实验表征晶体结构，微观晶体和表面性质的原色kaolinite（RKAO）和酸活化高岭石（Aakao ）。与RKAO相比，Aakao的粒度变小，但比表面积（SSA），阳离子交换容量（CEC）和PH 5.5的表面负电荷增加。 RKAO和Aakao的Ni（II）的吸附容量（Q_（最大））分别为3.25mg / g和5.09 mg / g。 RKAO和Aakao的Ni（II）的吸附数据可以由Langmuir Model（分别为R〜2 = 0.991和0.989）装配。

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《International Conference on Chemical Engineering and Advanced Materials》|2013年||共4页
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作者
Shiyong Wei; Xuhong Deng;
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中图分类 TB3-532;
关键词
Kaolinite; Acid activation; Adsorption; Ni(ll);

机译：高岭土;酸活化;吸附;Ni（LL）;

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Adsorption removal of Ni(ll) from aqueous solution by raw and acid-activated kaolinite

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