ОСОБЛИВОСТІ СПУХАННЯ АКТИВНОГО МУЛУ В МЕМБРАННИХ БІОРЕАКТОРАХ

Scientific Bulletin of Civil Engineering Pub Date : 1900-01-01 DOI:10.29295/2311-7257-2022-107-1-41-48

А. М. Христенко

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Abstract

Membrane bioreactor (MBR) technology, the practical application of which is growing steadily, is a combination of classical technology of biological treatment with activated sludge with a membrane system of micro- or ultrafiltration. MBR are an alternative to the widely used method of separating activated sludge from wastewater in secondary settling tanks used in traditional biological treatment systems. MBR exclude large-scale negative consequences, as in system with traditional aeration tanks and secondary settling tanks in the "swelling of activated sludge". But "swelling of activated sludge" can affect the nitrification process and minimize the efficiency of ammonium nitrogen removal. The purpose of the work is to study the swelling of activated sludge swelling on the existing membrane bioreactor. The research was carried out by hydrochemical analysis of wastewater in MBR and determination of technological properties of activated sludge in the bioreactor. The negative effect of activated sludge swelling in MBR on nitrification activity in the system was established, which caused a decrease in the efficiency of ammonium nitrogen removal. Filamentous bacteria were identified according to the classification of D. Eickelbum, which caused swelling of activated sludge in the studied MBR, Type 021N.

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膜生物反应器(MBR)技术是传统的活性污泥生物处理技术与微滤或超滤膜系统相结合的产物，其实际应用正在稳步发展。MBR是传统生物处理系统中二级沉淀池分离活性污泥的一种替代方法。MBR排除了大规模的负面影响，如在传统曝气池和二次沉降池的系统中“活性污泥膨胀”。但“活性污泥膨胀”会影响硝化过程，降低铵态氮的去除效率。研究了活性污泥在现有膜生物反应器上的溶胀现象。通过对MBR废水的水化学分析和生物反应器中活性污泥的工艺性能测定进行了研究。确定了MBR中活性污泥膨胀对系统硝化活性的负面影响，导致氨氮去除效率下降。根据D. Eickelbum分类鉴定出丝状细菌，该细菌是引起021N型MBR活性污泥膨胀的主要原因。

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Scientific Bulletin of Civil Engineering

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