A. Takáčová, M. Smolinská, J. Ryba, T. Mackuľak, Jana Jokrllová, P. Hronec, G. Čík
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引用次数: 33
摘要
摘要本研究采用小球藻光氧化法处理生物难分解污染物苯并[a]芘(BaP)。对不同实验条件下(不同生物量和光强)的模拟模型系统进行了评价。采用GC/MS技术定量分析BaP的减少情况。在光强度为13.5 W m−2的情况下,来自活藻培养的生物量(29%)的降解效率最高。当使用干生物质时,由于系统中缺乏酶活性,在相同条件下的降解率较低。
Biodegradation of Benzo[a]Pyrene through the use of algae
AbstractIn this work for disposal of the biologically hard decomposed pollutant Benzo[a]Pyrene (BaP) photooxidation Chlorella kessleri was used. The simulation model system under the different experimental conditions (varying biomass and light intensity) was evaluated. For quantitative analysis of the decrease in BaP, GC/MS technique was used. The highest degradation efficiency was achieved in the case of biomass from the culture of live algae (29%) and light intensity at level of 13.5 W m−2. When the dry biomass was used, degradation under the same conditions was lower because of lack of enzymatic activity in the system.
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