低温下热碱预处理剩余活性污泥：对污泥解体、甲烷生成和产甲烷菌群落结构的影响。

Thermo-alkaline pretreatment of waste activated sludge at low-temperatures: effects on sludge disintegration, methane production, and methanogen community structure.

机构信息

School of Urban and Environmental Engineering, Ulsan National Institute of Science and Technology (UNIST), Ulju-gun, Ulsan 689-798, Republic of Korea.

出版信息

Bioresour Technol. 2013 Sep;144:194-201. doi: 10.1016/j.biortech.2013.06.115. Epub 2013 Jul 4.

DOI:10.1016/j.biortech.2013.06.115

PMID:23871920

Abstract

Low-temperature thermo-alkaline pretreatment of waste activated sludge (WAS) was studied, within the region of 0-0.2 M NaOH and 60-90°C, for the effects of NaOH concentration and temperature on sludge degradability in anaerobic digestion (AD). Significant disintegration of sludge solids (up to 75.6%) and an increase in methane production (up to 70.6%) were observed in the pretreatment trials. Two quadratic models were successfully generated by response surface analysis (R(2)>0.9, p<0.05) to approximate how the degree of sludge disintegration (SD) and methane production (MP) respond to changes in the pretreatment conditions. The maximum responses of SD (77.8%) and MP (73.9% increase over the control) were shown at [0.16 M NaOH, 90°C] and [0.10 M NaOH, 73.7°C], respectively. NaOH addition showed a significant influence on the evolution of methanogen community structure during AD, whereas temperature did not. Aceticlastic Methanosaeta and Methanosarcina speceies were likely the major methanogens.

摘要

低温热碱预处理剩余活性污泥（WAS），研究范围为 0-0.2 M NaOH 和 60-90°C，考察 NaOH 浓度和温度对厌氧消化（AD）中污泥降解性的影响。预处理试验中，污泥固体的显著解体（高达 75.6%）和甲烷产量的增加（高达 70.6%）。响应面分析（R²>0.9，p<0.05）成功生成了两个二次模型，以近似污泥解体程度（SD）和甲烷产量（MP）如何响应预处理条件的变化。SD（77.8%）和 MP（对照提高 73.9%）的最大响应分别出现在[0.16 M NaOH，90°C]和[0.10 M NaOH，73.7°C]。NaOH 加显著影响 AD 期间产甲烷菌群结构的演变，而温度没有。乙酸营养型 Methanosaeta 和 Methanosarcina speceies 可能是主要的产甲烷菌。

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低温下热碱预处理剩余活性污泥：对污泥解体、甲烷生成和产甲烷菌群落结构的影响。

Thermo-alkaline pretreatment of waste activated sludge at low-temperatures: effects on sludge disintegration, methane production, and methanogen community structure.

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