小型污水处理厂不同工艺对象生物气溶胶扩散可能性的评价

IF 0.5 Q4 ENGINEERING, CIVIL
Ewa ZabŁOcka-Godlewska, W. Przystaś, M. Żak
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引用次数: 0

摘要

新冠肺炎疫情引起国际社会对空气生物污染的关注。污水处理厂(STPs)在不同的工艺操作过程中产生生物气溶胶。研究的目的是估计5个小型stp的不同技术对象的生物气溶胶排放范围。这些知识对于风险评估、监测计划和污染限制非常重要。采用沉淀法检测中温菌、嗜冷菌、大肠杆菌、色素菌、粪链球菌、荧光假单胞菌和霉菌。在活性污泥室、污泥浓缩池和二级澄清池附近检测到最高水平的冻干菌和霉菌(> 1000 cfu/m3)。中温菌(>500 cfu/m3)和大肠杆菌不是空气微生物群的正常组成部分,但在所有测量点都检测到,特别是在水泵站(入流)、沙砾、活性污泥、污泥浓缩室附近。在背风处,微生物数量高于迎风处。研究结果表明,有必要持续监测STP对空气质量的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of Possibilities of Spreading of Bioaerosol from Different Technological Objects in Small Sewage Treatment Plants
Abstract The Covid-19 pandemia increased the attention of the world community to air biocontamination. Sewage treatment plants (STPs) generate a bioaerosol during different technological operations. Research aimed to estimate the range of bioaerosol emission from different technological objects of 5 small STPs. Such knowledge is very important for risk assessment, monitoring programs and pollution limitation. The sedimentation method was used for the detection of mesophiles, psychrophiles, Escherichia coli, pigmented bacteria, Streptococcus faecalis, Pseudomonas fluorescens, and mold fungi. The highest level of psychrophiles and mold fungi (> 1000 cfu/m3) was detected in points located near activated sludge chambers, sludge thickening tanks, and secondary clarifiers. The mesophiles (>500 cfu/m3) and E. coli aren’t a normal component of air microflora, but were detected in all measurement points, especially near a pomp station (inflow), grit, activated sludge, sludge thickening chambers. At the points located at the leeward, the number of microorganisms was higher than in the windward. The research results indicate the necessity of constant monitoring of the STP impact on the air quality.
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