Optimization of Hydrolysis-Acidogenesis Phase of Swine Manure for Biogas Production Using Two-Stage Anaerobic Fermentation

The traditional pig manure wastewater treatment in Taiwan has been low in methane production efficiency due to unstable influent concentration, wastewater volume, and quality. Two-stage anaerobic systems, in contrast, have the advantage of buffering the organic loading rate in the first stage (hydro...

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Bibliographic Details
Published in:Processes 2021-08, Vol.9 (8), p.1324
Main Authors: Lin, Chiu-Yue, Chai, Wai Siong, Lay, Chyi-How, Chen, Chin-Chao, Lee, Chun-Yi, Show, Pau Loke
Format: Article
Language:English
Subjects:
Acid production
Acidification
Anaerobic treatment
Biogas
Carbohydrates
Chemical oxygen demand
Effluents
Experiments
Fatty acids
Fermentation
Hogs
Hydrolysis
Loading rate
Manures
Methane
Methanogenesis
Microorganisms
Optimization
Organic loading
pH effects
Raw materials
Reactors
Response surface methodology
Swine
Wastewater treatment
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Summary:The traditional pig manure wastewater treatment in Taiwan has been low in methane production efficiency due to unstable influent concentration, wastewater volume, and quality. Two-stage anaerobic systems, in contrast, have the advantage of buffering the organic loading rate in the first stage (hydrolysis-acidogenesis phase), allowing a more constant feeding rate to the second stage (methanogenesis phase). Response surface methodology was applied to optimize the operational period (0.5–2.0 d) and initial operational pH (4–10) for hydrolysis and acidogenesis of the swine manure (total solid 5.3%) at 35 °C in batch operation mode. A methanogenesis verification experiment with the optimal condition of operational period 1.5 d and pH 6.5 using batch operation resulted in peak volatile acid production 7 g COD/L, methane production rate (MPR) 0.3 L-CH4/L-d, and methane yield (MY) 92 mL-CH4/g-CODre (chemical oxygen demand removed). Moreover, a two-stage system including a hydrolysis-acidogenesis reactor with the optimal operating condition and a methanogenesis reactor provided an average MPR 163 mL/L-d and MY 38 mL/g volatile solids, which values are 60% higher than those of a single-stage system; both systems have similar dominant methane-producing species of Firmicutes and Bacteroidetes with each having around 30%–40%. The advantages of a two-stage anaerobic fermentation system in treating swine manure for biogas production are obvious.
ISSN:2227-9717
2227-9717
DOI:10.3390/pr9081324