Wei Wei, Zhou Xu, Xie Guo-Jun, Duan Haoran, Wang Qilin
Advanced Water Management Centre (AWMC), The University of Queensland, Brisbane, Queensland, Australia.
Griffith School of Engineering & Centre for Clean Environment and Energy, Griffith University, Brisbane, Queensland, Australia.
Biotechnol Bioeng. 2017 Oct;114(10):2245-2252. doi: 10.1002/bit.26348. Epub 2017 Jun 29.
This study proposed a novel free ammonia (FA, i.e., NH ) pretreatment technology to enhance anaerobic methane production from primary sludge for the first time. The solubilization of primary sludge was substantially enhanced following 24 h FA pretreatment (250-680 mg NH -N/L), by which the release of soluble chemical oxygen demand (SCOD) (i.e., 0.4 mg SCOD/mg VS added; VS: volatile solids) was approximately 10 times as much as that without pretreatment (i.e., 0.03 mg SCOD/mg VS added). Then, biochemical methane potential (BMP) tests demonstrated that FA pretreatment of 250-680 mg NH -N/L was capable of enhancing anaerobic methane production while the digestion time was more than 7 days. Model based analysis indicated that the improved anaerobic methane production was due to an increased biochemical methane potential (B ) of 8-17% (i.e., from 331 to 357-387 L CH /kg VS added), with the highest B achieved at 420 mg NH -N/L pretreatment. However, FA pretreatment of 250-680 mg NH -N/L decreased hydrolysis rate (k) by 24-38% compared with control (i.e., from 0.29 d to 0.18-0.22 d ), which explained the lower methane production over the first 7 days' digestion period. Economic analysis and environmental evaluation demonstrated that FA pretreatment technology was environmentally friendly and economically favorable. Biotechnol. Bioeng. 2017;114: 2245-2252. © 2017 Wiley Periodicals, Inc.
本研究首次提出了一种新型的游离氨(FA,即NH )预处理技术,以提高初沉污泥厌氧产甲烷量。经过24小时的FA预处理(250 - 680mg NH -N/L)后,初沉污泥的溶解率显著提高,由此释放的可溶性化学需氧量(SCOD)(即0.4mg SCOD/mg添加的VS;VS:挥发性固体)约为未预处理时(即0.03mg SCOD/mg添加的VS)的10倍。然后,生化甲烷潜力(BMP)测试表明,250 - 680mg NH -N/L的FA预处理能够在消化时间超过7天时提高厌氧产甲烷量。基于模型的分析表明,厌氧产甲烷量的提高是由于生化甲烷潜力(B )提高了8 - 17%(即从331升至357 - 387L CH /kg添加的VS),在420mg NH -N/L预处理时达到最高B 。然而,250 - 680mg NH -N/L的FA预处理与对照相比,水解速率(k)降低了24 - 38%(即从0.29d 降至0.18 - 0.22d ),这解释了在最初7天消化期内较低的甲烷产量。经济分析和环境评估表明,FA预处理技术对环境友好且经济有利。《生物技术与生物工程》2017年;114:2245 - 2252。© 2017威利期刊公司
