Ammonia stripping for enhanced biomethanization of piggery wastewater

► Ammonia removal by air stripping followed pseudo-first-order kinetic model. ► Enhanced biomethanization of ammonia-stripped piggery wastewater was observed in batch and semi-continuous experiments. ► It was found that a high concentration of sodium ion originated from sodium hydroxide for pH adjus...

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Bibliographic Details
Published in:Journal of hazardous materials 2012-01, Vol.199 (15), p.36-42
Main Authors: Zhang, Lei, Lee, Yong-Woo, Jahng, Deokjin
Format: Article
Language:English
Subjects:
aeration
air
Ammonia
Ammonia - chemistry
Ammonia inhibition
Ammonia stripping
Anaerobic digestion
Animals
Industrial Waste
ions
Methane
Methane - metabolism
methane production
Piggery wastewater
Sodium
Sodium hydroxide
Sodium inhibition
Stripping
Swine
Waste water
wastewater
Water Pollutants - metabolism
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Summary:► Ammonia removal by air stripping followed pseudo-first-order kinetic model. ► Enhanced biomethanization of ammonia-stripped piggery wastewater was observed in batch and semi-continuous experiments. ► It was found that a high concentration of sodium ion originated from sodium hydroxide for pH adjustment inhibited methane production. In this study, the effects of ammonia removal by air stripping as a pretreatment on the anaerobic digestion of piggery wastewater were investigated. Ammonia stripping results indicated that ammonia removal was strongly dependent on pH and aeration rate, and the ammonia removal rate followed the pseudo-first-order kinetics. A significant enhancement of biomethanization was observed for wastewaters of which ammonia was air-stripped at pH 9.5 and pH 10.0. The methane productivity increased from 0.23 ± 0.08 L CH 4/L d of the control (raw piggery wastewater) to 0.75 ± 0.11 L CH 4/L d (ammonia-stripped at pH 9.5) and 0.57 ± 0.04 L CH 4/L d (ammonia-stripped at pH 10.0). However, the improvement of methane production from the piggery wastewater pretreated at pH 11.0 was negligible compared to the control, which was thought to be due to the high concentration of sodium ions supplied from sodium hydroxide for pH adjustment. From these results, it was concluded that ammonia removal through air stripping at the alkaline pH could be a viable option for preventing the failure of anaerobic digestion of the raw piggery wastewater. Additionally, it was also found that a high concentration of sodium ion originated from sodium hydroxide for pH adjustment inhibited methane production.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2011.10.049