Adsorption of nitrobenzene and benzoic acid from aqueous solution by all-silica zeolite beta

机译：全硅沸石β从水溶液中吸附硝基苯和苯甲酸

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All-silica zeolite beta (BEA) was tested for the ability to remove nitrobenzene and benzoic acid from aqueous solution. The effect of contact time, temperature, initial concentration and initial pH were investigated in a batch reactor system. Adsorption of nitrobenzene decreased with increase in temperature. The equilibrium isotherm was L-shaped. Nitrobenzene adsorption was independent of pH. Adsorption of benzoic acid increased with increasing temperature from 5 °C to 22 °C and decreased with increasing temperature from 22 °C to 32 °C. The equilibrium isotherm was approximately S-shaped. Benzoic acid adsorption was dependent of pH. At pH8.0, benzoic acid can also be adsorbed effectively. The results above confirmed that BEA had the potential to be utilized as relatively effective adsorbent for nitrobenzene and benzoic acid removal.

机译：测试了全硅沸石β（BEA）从水溶液中去除硝基苯和苯甲酸的能力。在间歇反应器系统中研究了接触时间，温度，初始浓度和初始pH的影响。硝基苯的吸附量随温度的升高而降低。平衡等温线为L形。硝基苯吸附与pH无关。苯甲酸的吸附量随温度从5°C升高至22°C而增加，而随温度从22°C升高至32°C而降低。平衡等温线近似为S形。苯甲酸吸附取决于pH。在pH8.0时，苯甲酸也可以被有效地吸附。以上结果证实，BEA具有用作相对有效的硝基苯和苯甲酸去除吸附剂的潜力。

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来源
《International conference on environmental biotechnology and materials engineering;EBME 2011》|2011年|p.1378-1382|共5页
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Qingdong Qin; Jun Ma; Dafang Fu;
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中图分类环境生物学;环境生物学;
关键词
zeolite beta; adsorption; nitrobenzene; benzoic acid; isotherm;

机译：β型沸石;吸附;硝基苯;苯甲酸;等温线;

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Adsorption of nitrobenzene and benzoic acid from aqueous solution by all-silica zeolite beta

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