Methane production and microbial community structure for alkaline pretreated waste activated sludge

• Published in: Bioresource technology Vol. 169; pp. 496 - 501
• Main Authors: Sun, Rui, Xing, Defeng, Jia, Jianna, Zhou, Aijuan, Zhang, Lu, Ren, Nanqi
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.10.2014; Elsevier
• Subjects: 454 pyrosequencing; Alkaline pretreatment; Applied sciences; Archaea - classification; Archaea - drug effects; Archaea - genetics; Archaea - growth & development; Bacteria - classification; Bacteria - drug effects; Bacteria - genetics; Bacteria - growth & development; Bacterial Proteins - isolation & purification; Biological and medical sciences; Biological Oxygen Demand Analysis; Biological treatment of sewage sludges and wastes; Biotechnology; Environment and pollution; Exact sciences and technology; Fatty Acids, Volatile - biosynthesis; Fundamental and applied biological sciences. Psychology; Industrial applications and implications. Economical aspects; Methane - biosynthesis; Methane production; Microbial community; Pollution; RNA, Ribosomal, 16S - genetics; Sewage - microbiology; Sodium Hydroxide - pharmacology; Volatilization; Waste activated sludge (WAS); Waste Products; Wastes; 454 pyrosequencing; Waste activated sludge (WAS); Alkaline pretreatment; Methane production; Microbial community; Methane; Community structure; Activated sludge; Chemical pretreatment; Chemiluminescence; Basic medium; Alkalinity; Wastes; Sequencing
• ISSN: 0960-8524; 1873-2976
• DOI: 10.1016/j.biortech.2014.07.032

•Alkali-pretreatment enhanced CH4 production in the anaerobic digestion of sludge.•Alkali-pretreatment improved the sludge reduction in the anaerobic digestion.•The shift of microbial community resulted in CH4 increase after alkali-pretreatment. Alkaline pretreatment was studied to analyze the influence on waste activated sludge (WAS) reduction, methane production and microbial community structure during anaerobic digestion. Methane production from alkaline pretreated sludge (A-WAS) (pH=12) increased from 251.2mL/Ld to 362.2mL/Ld with the methane content of 68.7% compared to raw sludge (R-WAS). Sludge reduction had been improved, and volatile suspended solids (VSS) removal rate and protein reduction had increased by ∼10% and ∼35%, respectively. The bacterial and methanogenic communities were analyzed using 454 pyrosequencing and clone libraries of 16S rRNA gene. Remarkable shifts were observed in microbial community structures after alkaline pretreatment, especially for Archaea. The dominant methanogenic population changed from Methanosaeta for R-WAS to Methanosarcina for A-WAS. In addition to the enhancement of solubilization and hydrolysis of anaerobic digestion of WAS, alkaline pretreatment showed significant impacts on the enrichment and syntrophic interactions between microbial communities.