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Jiang, Y,Dennehy, C,Lawlor, PG,Hu, ZH,McCabe, M,Cormican, P,Zhan, XM,Gardiner, GE
2018
September
Waste Management
Inhibition of volatile fatty acids on methane production kinetics during dry co-digestion of food waste and pig manure
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Dry digestion Co-digestion VFA inhibition Microbial community structure Syntrophic oxidation Hydrogenotrophic methanogenesis THERMOPHILIC ANAEROBIC-DIGESTION SP-NOV. OXIDIZING BACTERIUM SYNTROPHIC BUTYRATE SEWAGE-SLUDGE SWINE MANURE BIO-ENERGY GEN. NOV. OXIDATION ACETATE
79
302
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Compared with wet digestion, dry digestion of organic wastes reduces reactor volume and requires less energy for heating, but it is easily inhibited by high volatile fatty acid (VFA) or ammonia concentration. The inhibition on methane production kinetics during dry co-digestion of food waste and pig manure is rarely reported. The aim of this study was to explore the inhibition mechanisms and the microbial interactions in food waste and pig manure dry co-digestion systems at different inoculum rates (25% and 50% based on volatile solids) and food waste/pig manure ratios (0:100, 25:75, 50:50, 75:25 and 100:0 based on volatile solids). The results showed that the preferable operation conditions were obtained at the inoculum rate of 50% and food waste/pig manure ratio of 50:50, with a specific methane yield of 263 mL/g VSadded. High WA concentration was the main inhibition factor on methane production, and the threshold VFA inhibition concentrations ranged 16.5-18.0 g/L. Syntrophic oxidation with hydrogenotrophic methanogenesis might be the main methane production pathway in dry co-digestion systems due to the dominance of hydrogenotrophic methanogens in the archaeal community. In conclusion, dry co-digestion of food waste and pig manure is feasible for methane production without pH adjustment and can be operated stably by choosing proper operation conditions. (C) 2018 Elsevier Ltd. All rights reserved.
10.1016/j.wasman.2018.07.049
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