Enzymatic pretreatment of activated sludge, food waste and their mixture for enhanced bioenergy recovery and waste volume reduction via anaerobic digestion

Enzymatic pretreatment of activated sludge, food waste and their mixture for enhanced methane production. [Display omitted] •Fungal mash rich in hydrolytic enzymes was produced from cake waste.•The CH4 production was improved after pretreatment of biosolids with fungal mash.•54.3% of volume reductio...

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Bibliographic Details
Published in:Applied energy 2016-10, Vol.179, p.1131-1137
Main Authors: Yin, Yao, Liu, Ya-Juan, Meng, Shu-Juan, Kiran, Esra Uçkun, Liu, Yu
Format: Article
Language:English
Subjects:
Activated sludge
Anaerobic co-digestion
Food waste
Fungal mash
Pretreatment
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Summary:Enzymatic pretreatment of activated sludge, food waste and their mixture for enhanced methane production. [Display omitted] •Fungal mash rich in hydrolytic enzymes was produced from cake waste.•The CH4 production was improved after pretreatment of biosolids with fungal mash.•54.3% of volume reduction of biosolids was achieved after anaerobic co-digestion.•WWTPs may become an energy producer via anaerobic co-digestion of biosolids. In the present study, the in-situ produced fungal mash rich in hydrolytic enzymes was used for the pretreatment of activated sludge, food waste and their mixture prior to anaerobic digestion. The enzymatic pretreatment of activated sludge mixed with food waste resulted in the production of 3.72g/L glucose and 51mg/L free amino nitrogen, equivalent to 7.65g/L soluble chemical oxygen demand (SCOD) within 24h, accompanied with 19.9% of volatile solids (VS) reduction. After pretreatment of activated sludge and food waste by fungal mash, 19.1% and 21.4% of VS reduction were achieved respectively. Furthermore, the bio-methane yield of mixed waste pretreated with fungal mash was found to be 2.5 times higher than activated sludge without pretreatment, with a further VS reduction of 34.5%. These suggest a total VS reduction of 54.3% in the proposed anaerobic system with the pretreatment by fungal mash. Theoretical estimation further revealed that about 678millionkWh of electrical energy could be potentially recovered annually through the co-digestion of mixed waste activated sludge and food waste after the pretreatment with fungal mash in Singapore. In this case, the energy produced was higher than energy consumed by wastewater treatment. It was demonstrated in this study that the pretreatment of mixed activated sludge and food waste by in-situ produced fungal mash would be a promising option for enhancing biomethane production as well as for maximizing volume reduction of mixed waste via anaerobic co-digestion.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2016.07.083