Dynamic interactions between cyclodextrin, an organic pollutant, and granular activated carbon in column studies.

William J Blanford, Heng Gao
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引用次数: 3

Abstract

In this study, the dynamic interactions between cyclodextrin (CD), an organic chemical and granular activated carbon (GAC) were investigated using column studies. Breakthrough curves of a chlorinated solvent, trichloroethylene (TCE) were obtained over a range of concentrations of 2-hydroxypropyl-beta-cyclodextrin (HPCD) (0, 20, and 50 g L(-1)) and flow velocities (1.0, 4.0, and 10.2 mL min(-1)). Important transport parameters (i.e. residence time, dispersion coefficient, retardation factor) were estimated using truncated temporal moment analysis. Our result shows that increasing CD concentration resulted in earlier TCE breakthrough, demonstrated by decreasing residence times which are 306.23, 151.26, and 102.24 pore volumes for 0, 20, and 50 g L(-1) CD respectively. Comparison of the original breakthrough curves (BTCs) under different CD concentrations to the solubility-enhancement-rescaled BTCs showed (1) the presence of CD decreases the relative degree of TCE sorption to GAC and (2) all 3 curves exhibited similar rescaled times at which they reach 50% of the input concentration. The lowest flow rate, (1.0 mL min(-1)), resulted in a more symmetrical BTC, indicating more ideal conditions were achieved under the longer exposure time provided by this flow rate. As the flow rate increases the first appearance of TCE in the eluent occurs relatively earlier and exhibits comparatively greater delay in achieving full breakthrough, suggesting non-equilibrium processes are more significant at higher flow rates.

有机污染物环糊精与颗粒活性炭的动态相互作用。
采用色谱柱法研究了有机化学物质环糊精(CD)与颗粒活性炭(GAC)之间的动态相互作用。得到了氯化溶剂三氯乙烯(TCE)在2-羟丙基- β -环糊精(HPCD)浓度(0、20和50 g L(-1))和流速(1.0、4.0和10.2 mL min(-1))范围内的突破曲线。使用截断时间矩分析估计了重要的输运参数(即停留时间、色散系数、延迟因子)。结果表明,随着CD浓度的增加,TCE突破时间提前,停留时间减少,在0、20和50 g L(-1) CD条件下,停留时间分别为306.23、151.26和102.24孔体积。将不同CD浓度下的原始突破曲线(btc)与溶解度增强后的突破曲线(btc)进行比较,结果表明:(1)CD的存在降低了TCE对GAC的相对吸附程度;(2)3条曲线在达到输入浓度的50%时都有相似的重标时间。最低的流量(1.0 mL min(-1))导致BTC更加对称,这表明在该流量提供的较长曝光时间下,可以获得更理想的条件。随着流量的增加,淋洗液中TCE首次出现的时间相对较早,实现完全突破的时间相对较长,这表明非平衡过程在高流量下更为显著。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Environmental Monitoring
Journal of Environmental Monitoring 环境科学-分析化学
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审稿时长
2.3 months
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