| 微波解吸-催化燃烧净化甲苯研究 |
| 摘要点击 3417 全文点击 1657 投稿时间:2012-10-29 修订日期:2012-12-16 |
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| 中文关键词 微波 解吸 催化燃烧 活性炭 挥发性有机化合物(VOCs) 甲苯 |
| 英文关键词 microwave desorption catalytic combustion activated carbon volatile organic compounds (VOCs) toluene |
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| 中文摘要 |
| 以甲苯为目标污染物,采用活性炭做吸附剂对含甲苯废气进行吸附; 吸附完成后利用微波辐照进行解吸; 另外采用浸渍法制备Cu-Mn复合氧化物催化剂并对微波解吸后的废气进行催化燃烧处理从而达到对污染物进行彻底净化的目的. 实验中甲苯的浓度由气相色谱(GC)测定. 结果表明,采用微波解吸后,在以氮气为载气的解吸气体中加入空气来提供氧气从而实现催化燃烧是可行的,解吸气与空气配比为1:1(体积比)时效果最好,此时对应的催化空速为2.67 s-1. 解吸温度会影响解吸气体中的甲苯浓度进而影响催化燃烧效率,实验结果表明400℃解吸比较理想. 当催化燃烧温度保持在300℃时,系统对甲苯的最终净化效率可以维持在90%以上,其中大部分时间是在95%以上. |
| 英文摘要 |
| Using activated carbon as adsorbent, toluene waste gas was treated by adsorption process. After the adsorption process was completed, the adsorbent was desorbed by microwave irradiation; then Cu-Mn oxide composite catalysts were prepared by impregnation and the desorbed toluene gas was treated by catalytic combustion so as to completely purify the pollutant. The concentration of toluene was measured by gas chromatography (GC). The results indicated that it is feasible to add air to provide oxygen to the desorbed gas after the completion of the desorption process, in order to achieve the catalytic combustion; the ratio of desorbed gas and air was 1:1(volume ratio), and the corresponding catalytic space velocity was 2.67 s-1. Desorption temperature could affect the concentration of toluene in the desorption gas thereby affecting the catalytic combustion efficiency; the results indicated that 400℃ was an appropriate temperature for desorbing the activated carbon. When the catalytic combustion was kept at 300℃, the final toluene treatment efficiency was higher than 90%, which was higher than 95% during the most time of the treatment process. |
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