Zhejiang Key Laboratory of Petrochemical Environmental Pollution Control, Zhejiang Ocean University
Zhejiang Zhonglan Environmental Technology Co., Ltd.

含氯挥发性有机物(Chlorinated Volatile Organic Compounds,CVOCs)的安全低碳处理是当前石化、医化等化工行业大气污染控制的难题。 生物法是一种绿色、环保、低碳的有机污染物处理技术,但利用生物技术处理生产过程中排放的混合 CVOCs 的报道较少。 本研究以某精细化工企业 CVOCs 成分为基础, 针对主要组分氯苯 ( Chlorobenzene, CB)、 二氯甲烷 ( Dichloromethane,DCM)和二氯乙烷( Dichloroethane,DCE),以 Roseburia sp. HY - 9、Methylobacterium rhodesianumH13 和 Starkeya sp. T2 分别作为上述污染物的特异性降解菌,等比例构建液态复合菌剂,比较单菌单底物、单菌多底物和多菌多底物条件下三种 CVOCs 的降解情况。 结果发现通过三株菌种之间的相互协作,复合菌剂对 CB、DCM 和 DCE 的最大降解速率分别达到了 11.10、1.98 和 3.13 mg /(L·h),明显高于单一菌株的生物降解速度,显示了复合菌剂降解混合含氯有机污染物的应用潜能。 本研究可以为复合菌剂在实际工业中的应用提供建议和参考。

The safe and low-carbon treatment of chlorinated volatile organic compounds (CVOCs) is acurrent challenge for air pollution control in petrochemical, medical and chemical industries. The bio⁃logical method is a green, environmentally friendly and low-carbon treatment technology for organicpollutants. However, there are few reports on the use of biological technology to treat mixed CVOCsemitted during the production process. In this study, based on the composition of CVOCs in a finechemical enterprise, the biological treatment of CVOCs was conducted using Roseburia sp. HY - 9,Methylobacterium rhodesianum H13, and Starkeya sp. T2 as the specific degrading bacteria for chloro⁃benzene ( CB ), dichloromethane ( DCM ) and dichloroethane ( DCE ) degradation. The liquidcomposite microbial agents were prepared in equal proportions to compare the degradation of the threeCVOCs under the conditions of single bacteria with single substrate, single bacteria with multiple sub⁃strates, and multiple bacteria with multiple substrates. The results showed that the maximumdegradation rates of CB, DCM and DCE by the composite bacterial agents reached 11.10 mg / (L·h),1.98 mg / (L·h) and 3.13 mg / (L·h), respectively, through the mutual collaboration among thethree strains. These rates were significantly higher than the biodegradation rate of single strains.Therefore, this study provides suggestions and references for the application of composite bacterialagents in practical industries.

浙江省领雁研发攻关计划资助项目(2022C03073);舟山市定海区院地合作资助项目(20220302)

叶镭, 尤菊平, 孙海敏, 等. 混合含氯挥发性有机污染物的生物降解性能研究[J]. 能源环境保护, 2023,37(6): 175-184.

YE Lei, YOU Juping, SUN Haimin, et al. Biodegradation performance of mixed chlorinated volatile organic pollu⁃tants[J]. Energy Environmental Protection, 2023, 37(6): 175-184.