环境污染治理技术及原理
都基峻,季学李,羌宁.生物膜净化含苯废气的性能研究[J].环境科学学报,2005,25(3):401-404
生物膜净化含苯废气的性能研究
- The performance of the biofilm to treat benzene in waste gas
- 季学李
- 同济大学污染控制与资源化研究国家重点实验室, 上海 200092
- 羌宁
- 同济大学污染控制与资源化研究国家重点实验室, 上海 200092
- 摘要:在生物法净化废气装置中生物膜是设备的主体和关键.研究以净化含苯废气的生物滴滤塔为对象,采用静态反应器对塔内生物膜的净化性能进行研究,探索其过程机理,为生物滴滤器的优化提供技术支持.结果表明,在生物滴滤器中单位体积生物膜的呼吸速率和苯去除速率都沿气流方向逐渐减小,但单位质量生物膜的苯去除速率却是塔中部高两边低.研究发现,当生物膜经过3d的闲置后,苯的消除能力提高了70%左右,但闲置时间超过5d后,生物净化性能开始下降.综合实验结果,推测在生物膜中同时存在苯的生物降解过程和生物储备能源的合成过程,在苯浓度越高的地方储备能源的量也越多,储备能源的存在降低了生物膜的净化能力但增强了生物膜的稳定性.
- Abstract:Biological treatment is a novel technology for contaminated airstreams in recent years. Biofilm is the key factor of gas contamination treatment in biofilter and biotrickling filter. In this investigation, when the benzene gas was treated by the biotrickling filter, a batch reactor was set up to measure the removing capability and CO2 respiration rate of the piece of biofilm at different height. The results showed that the biofilm had different dry weight at different height in biotrickling filter. The dry weight of the biofilm at first layer was 35.9g·L-1, and the other two layers were lower than 20g·L-1. Similarly, the removing and respirating rate of the biofilm was decreased along the height of the biotrickling filter. In first layer, the removing rate was 35mg·L-1·h-1 and the respiring rate of CO2 was 146.4(mg·L-1·h-1), which were higher than the others. But the eliminating capability of dry weight per unit of biofilm in second layer was 2.11mg·h-1·g, which was highest. And the eliminating capability in first layer was not so high and the producing rate of CO2 was less than 20%. This research revealed that the eliminating capability could be enhanced by appropriate idle time with the condition of enough oxygen and water. In this study, the benzene eliminating capability improved 70% after 3 days' idling. However, the eliminating capability fell down after 5 days idling. And the mechanism of benzene biodegradation in biofilm was also discussed. Based on the result, it seemed that biodegradation of benzene and energy transforming processes existed at same time in biofilm. The higher of the benzen concentration, the more energy stored. The presence of energy storage substance decreased the eliminating capability of biofilm, but it increased its stability.
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