| 黄河兰州段沉积物对水体中萘的吸附行为及影响 |
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| 引用本文: | 蒋煜峰,曹万发,田轩,贾婷婷,牛国栋,张娟香,原陇苗.黄河兰州段沉积物对水体中萘的吸附行为及影响[J].环境科学研究,2018,31(9):1545-1553. |
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| 作者姓名: | 蒋煜峰 曹万发 田轩 贾婷婷 牛国栋 张娟香 原陇苗 |
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| 作者单位: | 兰州交通大学环境与市政工程学院, 甘肃 兰州 730070 |
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| 基金项目: | 国家自然科学基金项目(No.41363008);兰州交通大学科技创新项目(No.DXS-KJCX-2016-13);兰州交通大学百名青年优秀人才培养计划 |
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| 摘 要: | 为研究典型有机污染物在黄河兰州段沉积物的吸附规律及影响,以黄河兰州段的沉积物为供试样品,选择萘(naphthalene)为代表性有机污染物,采用批量试验法研究了污染物萘在黄河沉积物上的吸附动力学、吸附热力学、初始质量浓度、pH、离子强度、粒径等影响因素以及解吸动力学.结果表明:黄河沉积物对萘的吸附动力学更符合准二级动力学模型,且吸附过程主要分为快吸附(0~4 h)和慢吸附(4~8 h)两个阶段,在8 h左右达到平衡;Freundlich模型能较好地拟合热力学吸附特征.在25~45℃的温度范围内,E(吸附平均自由能)为0.288~0.316 kJ/mol(< 8 kJ/mol),吸附过程中,ΔGθ(吉布斯自由能)小于0,ΔSθ(熵变)与ΔHθ(焓变)均大于0,说明萘在黄河沉积物上的吸附是一个自发的混乱度增大的吸热过程,且以物理吸附为主.影响因素分析结果显示,随着沉积物粒径的增大,萘在其上的吸附量逐渐减小;增大吸附体系中的离子强度时,萘在沉积物上的吸附过程受到抑制;当萘初始浓度增大时,吸附量增加;酸性条件抑制吸附过程,碱性环境促进吸附过程;黄河沉积物对萘的解吸量远小于吸附量,存在解吸滞后现象.研究显示,萘在黄河沉积物中的吸附速率受内部扩散、表面吸附和液膜扩散的共同影响,并且吸附过程同时受到沉积物粒径和溶液的pH和离子强度的影响.
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| 关 键 词: | 黄河沉积物 萘 吸附动力学 吸附热力学 影响 |
| 收稿时间: | 2018/1/5 0:00:00 |
| 修稿时间: | 2018/2/28 0:00:00 |
Adsorption Behavior and Affecting Factor for Naphthalene on Sediment of the Yellow River in Lanzhou Section |
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| JIANG Yufeng,CAO Wanf,TIAN Xuan,JIA Tingting,NIU Guodong,ZHANG Juanxiang and YUAN Longmiao.Adsorption Behavior and Affecting Factor for Naphthalene on Sediment of the Yellow River in Lanzhou Section[J].Research of Environmental Sciences,2018,31(9):1545-1553. |
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| Authors: | JIANG Yufeng CAO Wanf TIAN Xuan JIA Tingting NIU Guodong ZHANG Juanxiang and YUAN Longmiao |
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| Affiliation: | School of Environmental & Municipal Engineering, Lanzhou Jiaotong University, Lanzhou 730070, China |
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| Abstract: | In order to study the adsorption behavior of polycyclic aromatic hydrocarbons (PAHs) on sediment of the Yellow River in the Lanzhou section, naphthalene (Nap) was selected as the target pollutant to understand the adsorption kinetics and thermodynamics of Nap onto sediment based on the batch experiments. Meanwhile, the influence of initial concentration, particle size, pH value, ionic strength and other factors on the adsorption process of Nap on the sediment of the Yellow River in the Lanzhou section was also investigated. The results indicated that the adsorption kinetics of Nap onto sediment could be best described by the pseudo-second-order-model, and the adsorption process was mainly divided into two stages:fast adsorption (0-4 h) and slow adsorption (4-8 h), reaching equilibrium at about 8 h, indicating that the adsorption process is controlled by a variety of factors. The adsorption thermodynamics of Nap onto sediment was fitted well with the Freundlich model. At a temperature of 25℃ to 45℃, average adsorption free energy (E) of 0.288-0.316 kJ/mol, E < 8 kJ/mol, the Gibbs free energy (ΔGθ) was less than zero, and Enthalpy (ΔHθ) and Entropy (ΔSθ) were greater than zero in the adsorption process, which showed that the adsorption of Nap on sediment is a spontaneous and endothermic process with an increase in randomness, and is dominated by physical adsorption. The analysis results of the influencing factors showed that:the smaller the particle size, the greater the adsorption capacity toward the Nap; as the ionic strength increased, the adsorption amount of Nap was decreased; when the initial concentration increased, the adsorption capacity also increased; and strongly acidic conditions inhibit the adsorption process, while an alkaline environment promotes the adsorption process. The desorption amount of Nap from the Yellow River sediment in the Lanzhou section was much less than the amount of adsorption, indicating the phenomenon of desorption hysteresis. The results show that the adsorption rate of naphthalene in sediments of the Yellow River in Lanzhou section is affected by both internal diffusion, surface adsorption and liquid film diffusion, and the adsorption process is affected by both the particle size of the sediment and the pH and ionic strength of the solution. |
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| Keywords: | sediment naphthalene adsorption kinetics adsorption thermodynamics affecting factors |
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