含甲醇废水甲烷发酵过程中颗粒污泥的分解

Kazumasa Kamachi, H. Shinjô, Y. Tsukamoto, T. Tatsuzawa
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摘要

在UASB处理含甲醇废水的过程中,由于很少有产甲烷菌可以利用甲醇作为底物,因此维持颗粒污泥是一个挑战。本研究以实际含甲醇废水为例,观察了种子型颗粒污泥在连续运行UASB(上流式厌氧污泥毯)系统中,固液分离后污泥回流的驯化过程中,颗粒污泥微生物群落和颗粒分布的变化。在驯化过程中,颗粒污泥中的类甲烷菌成为优势产甲烷菌,优势种为甲基化甲烷菌。当它们的DNA超过80%后,颗粒污泥继续坍塌,颗粒直径小于0.5 mm。然而,由于固液分离后的污泥回流,即使颗粒污泥坍塌后,仍能获得稳定的性能。
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Disaggregation of Granular Sludge during Methane Fermentation Treatment for Methanol-containing Wastewater
It is a challenge to maintain the granular sludge during the treatment of wastewater containing methanol by UASB, since few methanogens can utilize methanol as a substrate. In this study, for the treatment of actual wastewater containing methanol, the change in the microbial community and particle distribution of granular sludge were observed during the acclimatization process of seed granular sludge for the continuous operation of an UASB (Up-flow Anaerobic Sludge Blanket) system with sludge returning after solid-liquid separation. Methanosarcina-like methanogens in the granular sludge became dominant during the acclimatization, and the dominant species was found to be Methanomethylovorans. After their DNA exceeded 80%, the collapse of the granular sludge progressed and the particle diameter became less than 0.5 mm. However, stable performance still could be obtained because of sludge returning after solid-liquid separation, even after the collapse of granular sludge.
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