Effect of fermentation type regulation using alkaline addition on two-phase anaerobic digestion of food waste at different organic load rates

In two-phase anaerobic digestion (TPAD) of food waste, alkaline addition is commonly used to alter fermentation types aiming to improve the subsequent methanogenesis. However, alkaline usage could also cause the accumulation of salt and inhibit methanogens. To discover the opposite effect, a series...

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Bibliographic Details
Published in:Renewable energy 2020-07, Vol.154, p.385-393
Main Authors: Feng, Kai, Wang, Qiao, Li, Huan, Zhang, Yangyang, Deng, Zhou, Liu, Jianguo, Du, Xinrui
Format: Article
Language:English
Subjects:
Anaerobic digestion
Fermentation
Food waste
Methane
Sodium hydroxyl
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Summary:In two-phase anaerobic digestion (TPAD) of food waste, alkaline addition is commonly used to alter fermentation types aiming to improve the subsequent methanogenesis. However, alkaline usage could also cause the accumulation of salt and inhibit methanogens. To discover the opposite effect, a series of continuous TPAD experiments with automatic pH control were conducted at different organic load rates (OLRs). The results indicated that pH regulation was not always effective for TPAD. At the OLR of 1.9 g/(L·d), mixed acid fermentation at pH 6.0 and lactic acid fermentation at pH 4.5 were achieved with the average NaOH dose of 1.69 and 2.45 g/(L·d), respectively, and the subsequent methane production increased to 460 and 482 ml/g in comparison to 380 ml/g in single-phase anaerobic digestion (SPAD). At the OLR of 2.4 g/(L·d), the Na+ concentration in methanogenic phase increased more than 3.5 g/L, resulting in the deterioration of methane production. At the OLRs higher than 3.2 g/(L·d), pH control cannot be applied to TPAD, and SPAD suffered from excessive acidification. Thus, TPAD without pH control became the only choice, but its methane yield was only 397 ml/g, implying new methods should be considered to improve TPAD. •Alkaline addition can regulate fermentation type and enhance hydrolysis.•Mixed acid and lactic acid fermentation benefit methanogenesis at low load rates.•Alkaline regulation caused inhibition to methanogenesis at high load rates.•Single-phase anaerobic digestion is the best choice at moderate load rates.•Two-phase anaerobic digestion without pH control is suitable for high load rates.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2020.03.051