| 针铁矿和蒙脱石对菲的吸附解吸行为与热力学研究 |
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| 引用本文: | 刘晓华,吴宏海,管玉峰,曾丽璇,邓达义,何广平.针铁矿和蒙脱石对菲的吸附解吸行为与热力学研究[J].西安地质学院学报,2012(1):40-46. |
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| 作者姓名: | 刘晓华 吴宏海 管玉峰 曾丽璇 邓达义 何广平 |
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| 作者单位: | 华南师范大学化学与环境学院,广东广州510006 |
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| 基金项目: | 国家自然科学基金项目(41072034,40773080);广东省自然科学基金项目(10151063101000028) |
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| 摘 要: | 采用批量振荡吸附平衡法设计针铁矿和蒙脱石对菲的吸附解吸试验,对比研究了针铁矿和蒙脱石对菲的吸附解吸行为,并考察了不同K+浓度的溶液对蒙脱石吸附菲的影响,比较分析了线性吸附模型和Freundlich吸附模型描述矿物吸附等温线的准确性,并从吸附热力学角度探讨了矿物的吸附机理。结果表明:针铁矿和蒙脱石对菲的吸附解吸均表现出明显的非线性和解吸滞后现象;相对于线性吸附模型来说,针铁矿和蒙脱石对菲的吸附解吸更符合Freundiich吸附模型;与蒙脱石相比,针铁矿对菲的吸附更为显著,且具有更好的稳定性;溶液中软阳离子K+的存在使蒙脱石对菲的吸附能力得到显著提高;菲在蒙脱石和针铁矿上的吸附过程是一个自发放热,同时伴随着熵值减小的过程;随着温度的升高,蒙脱石和针铁矿对菲的吸附能力均减弱。
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| 关 键 词: | 热力学 吸附 解吸 等温线 针铁矿 蒙脱石 菲 多环芳烃 |
Study on the behaviors and thermodynamics of sorption and desorption of goethite and turf ace to phenanthrene |
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| Authors: | LIU Xiao-hua WU Hong-hai GUAN Yu-feng ZENG Li-xuan DENG Da-yi HE Guang-ping |
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| Institution: | (School of Chemistry and Environment, South China Normal University, Guangzhou 510006, Guangdong, China) |
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| Abstract: | The batch vibrated adsorption balance method was used to design the experiment which included the sorption and desorption of goethite and turface to phenanthrene. The behaviors of sorption and desorption were studied; the influences of sorption of turface to phenanthrene were discussed when the concentrations of K+ were different in solution; the sorption isotherms of minerals calculated by linear sorption model and Freundlich sorption model were compared; the sorption mechanism of minerals were discussed based on sorption thermodynamics. The results showed that the sorption and desorption of goethite and turface were nonlinear and hysteretic; compared with linear sorption model, the sorption and desorption of goethite and turface were more in accord with Freundlich sorption model; the sorption of goethite was stronger and more steady than that of turface; the soft cation K+ significantly improved the sorption of turface; the sorption processes of sorption of turface to phenanthrene were spontaneous exothermic, accompanied with the process of entropy decrease; the sorption ability of goethite and turf ace to phenanthrene was weaken with the temperature increased. |
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| Keywords: | thermodynamics sorption desorption isotherm goethite turface phenanthrene polycyclic aromatic hydrocarbon |
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