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改性木屑对水中苯胺的动态吸附
引用本文:胡奇, 李玉立, 潘红玉, 郑彤, 高大文, 王鹏. 改性木屑对水中苯胺的动态吸附[J]. 环境工程学报, 2016, 10(9): 4663-4667. doi: 10.12030/j.cjee.201504169
作者姓名:胡奇  李玉立  潘红玉  郑彤  高大文  王鹏
作者单位:1. 哈尔滨工业大学市政环境工程学院, 哈尔滨 150090; 2. 城市水质保障与水资源可持续利用国家重点实验室, 哈尔滨 150090
基金项目:国家水体污染治理与控制重大专项(2012ZX07205-005)
摘    要:采用β-环糊精对木屑改性用于吸附苯胺,通过固定床实验考察了吸附床高度(10~30 mm)、进水流速(2.7~8.1 mL·min-1)和苯胺初始浓度(50~200 mg·L-1)对穿透曲线的影响,同时使用BDST模型对吸附穿透曲线进行拟合。结果表明,改性木屑可以有效吸附苯胺,随着高度的增加,穿透时间延长,固定床对苯胺的去除率增大;随着苯胺进水流速和初始浓度的增加,穿透时间缩短,固定床对苯胺的去除率降低;BDST模型对穿透曲线的拟合效果较好(Ct/C0=0.7,R2=0.999 0),随着运行时间的增加,固定床的吸附速率常数(Ka)变小,对苯胺的吸附量(N0)增大;当改变流速时,运用该模型能较准确的预测吸附固定床的操作时间。

关 键 词:木屑   苯胺   动态吸附   穿透曲线   BDST模型
收稿时间:2015-05-02

Dynamic adsorption of aniline in water on modified sawdust
HU Qi, LI Yuli, PAN Hongyu, ZHENG Tong, GAO Dawen, WANG Peng. Dynamic adsorption of aniline in water on modified sawdust[J]. Chinese Journal of Environmental Engineering, 2016, 10(9): 4663-4667. doi: 10.12030/j.cjee.201504169
Authors:HU Qi  LI Yuli  PAN Hongyu  ZHENG Tong  GAO Dawen  WANG Peng
Affiliation:1. School of Municipal and Environmental Engineering, Harbin Institute of Technology, Harbin 150090, China; 2. State Key Laboratory of Urban Water Resource and Environment, Harbin 150090, China
Abstract:Sawdust modified by β-cyclodextrin was used as an adsorbent for aniline removal in a fixed bed. The effects of some parameters such as, bed height (10 to 30 mm), feed flow rate (2.7 to 8.1 mL·min-1), and initial aniline concentration (50 to 200 mg·L-1) were studied and the corresponding breakthrough curves were obtained.The bed depth service time (BDST) model was applied to simulate the column adsorption data, and the results indicated that the modified sawdust was efficient in aniline adsorption. The increasing filler height resulted in an extension of the breakthrough time and higher removal efficiency, which both decrease with an elevated influent flow rate and initial concentration. The BDST model was suitable for describing the kinetics of fixed-bed adsorption (Ct/C0=0.7, R2=0.999 0), and growing running times result in a lower rate constant (Ka) and higher adsorption capacity (N0). When the influent flow rate is changed, the breakthrough time can also be forecasted by the BDST model.
Keywords:sawdust  aniline  dynamic adsorption  breakthrough curve  BDST model
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