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内循环流化床吸附-膜分离工艺的饮水除氟特性
引用本文:徐微, 周江文, 秦玮, 申林, 李学德. 内循环流化床吸附-膜分离工艺的饮水除氟特性[J]. 环境工程学报, 2016, 10(9): 4698-4704. doi: 10.12030/j.cjee.201504175
作者姓名:徐微  周江文  秦玮  申林  李学德
作者单位:1.安徽农业大学资源与环境学院, 合肥 230036
基金项目:国家高技术研究发展计划(863)项目(2012AA062605)
摘    要:将内循环吸附与膜分离技术联合,开发一种新型饮水除氟工艺。为明确工艺特性,以模拟高氟水为实验原水,采用连续流小试装置,通过单因素实验和响应面法分析了HRT、吸附剂投加量2个重要参数对工艺除氟效能的影响规律。结果表明,HRT与活性Al2O3投加量对工艺的除氟效能均存在显著影响,在一定条件下存在最优值。响应面分析结果表明,最佳条件为:HRT=3.2 h,活性Al2O3投加量为5 g·L-1。该条件下,出水氟浓度最低可降至0.2 mg·L-1,在瞬时出水氟浓度与累积出水平均氟浓度超标前,单位活性Al2O3的处理水量分别为1.15 t·kg-1和1.36 t·kg-1;工艺运行过程中,TMP处于较低水平且增加缓慢,表明膜污染程度较小;基于吸附原理与物料平衡原理建立了工艺连续流动态数学模型,模拟得出的出水氟浓度动态变化曲线与实测结果较为一致。

关 键 词:饮水   除氟   吸附   膜分离
收稿时间:2015-07-20

Fluoride removal from drinking water by the process combined internal circulating fluidized bed and membrane
XU Wei, ZHOU Jiangwen, QIN Wei, SHEN Lin, LI Xuede. Fluoride removal from drinking water by the process combined internal circulating fluidized bed and membrane[J]. Chinese Journal of Environmental Engineering, 2016, 10(9): 4698-4704. doi: 10.12030/j.cjee.201504175
Authors:XU Wei  ZHOU Jiangwen  QIN Wei  SHEN Lin  LI Xuede
Affiliation:1.School of Resource and Environment, Anhui Agricultural University, Hefei 230036, China
Abstract:A new method of fluoride removal was developed by adding a membrane into a pneumatic internal circulating fluid-bed adsorption reactor. The HRT and adsorbent dosage are the two most important parameters for this process. Their influences on the fluoride removal were studied by a series of single-factor tests and the response surface method (RSM) with a pilot test device. The results indicate that both factors have a marked influence on the fluoride removal, and can be optimized. The optimum values of the HRT and the dosage of Al2O3 in this study were 3.2 h and 5 g·L-1, respectively. Under these conditions, the lowest concentration of F- in the effluent was 0.2 mg·L-1; 1 kg of activated Al2O3 could treat an average of 1.15 t and 1.36 t water for the instantaneous F- of effluent and the average F- of cumulative treated water, respectively. During device operation, the low level of TMP suggested that minor membrane fouling had occurred. The model developed to predict the time variation of F- in the effluent was based on the theoretical adsorption and material balance equation, where the predicted dynamic curve of F- in the effluent was identical to that of the measured curve.
Keywords:drinking water  defluorination  adsorption  membrane separation
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