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Comparison of Relationship between Solubilization and Methane Productivity on Anaerobic Digestion of Pre-treated Waste Activated Sludge
Objectives Various pre-treatment methods have been applied to waste activated sludge(WAS) to improve the efficiency of anaerobic digestion(AD) by enhancing hydrolysis. The objective of this study was to find out the relationship between increased solubilization and AD efficiency in response to the application of different pretreatment methods(Acid+Heat and Alkali+Heat) to WAS. Methods Acid+Heat(pH 2+130℃) and Alkali+Heat(pH 10+130℃) pretreatment processes were performed by adding HCl and KOH, respectively. A biochemical methane potential(BMP) test was subsequently conducted to determine the AD efficiency of pretreated WAS. Finally, the physicochemical characteristics in the effluent of AD of WAS, done by excitation-emission matrix(EEM) and size exclusion chromatography(SEC), were analyzed to investigate the degree of changed intermediates during microbial degradation of organic compounds. Results Both Acid+Heat and Alkali+Heat pretreatments resulted in similar solubilization of WAS, reaching 34.1 and 36.3%, respectively. Meanwhile, it was found that the CH4 yield obtained from the Alkali+Heat pretreated sample was lower than the sample of Acid+Heat. The results of EEM analysis showed that the Alkali+Heat pretreated WAS had a higher portion of less biodegradable organic compounds with high- molecular weight in the soluble sample than that of the Alkali+Heat pretreated sample. Conclusion This study was conducted to clarify the relationship by comparing the hydrolysis rate and AD efficiency according to the application of Acid+Heat and Alkali+Heat pretreatment. It was found that the amount of methane generated could vary depending on the properties of the dissolved substances in response to different pretreatment approaches.
Comparison of Relationship between Solubilization and Methane Productivity on Anaerobic Digestion of Pre-treated Waste Activated Sludge
Objectives Various pre-treatment methods have been applied to waste activated sludge(WAS) to improve the efficiency of anaerobic digestion(AD) by enhancing hydrolysis. The objective of this study was to find out the relationship between increased solubilization and AD efficiency in response to the application of different pretreatment methods(Acid+Heat and Alkali+Heat) to WAS. Methods Acid+Heat(pH 2+130℃) and Alkali+Heat(pH 10+130℃) pretreatment processes were performed by adding HCl and KOH, respectively. A biochemical methane potential(BMP) test was subsequently conducted to determine the AD efficiency of pretreated WAS. Finally, the physicochemical characteristics in the effluent of AD of WAS, done by excitation-emission matrix(EEM) and size exclusion chromatography(SEC), were analyzed to investigate the degree of changed intermediates during microbial degradation of organic compounds. Results Both Acid+Heat and Alkali+Heat pretreatments resulted in similar solubilization of WAS, reaching 34.1 and 36.3%, respectively. Meanwhile, it was found that the CH4 yield obtained from the Alkali+Heat pretreated sample was lower than the sample of Acid+Heat. The results of EEM analysis showed that the Alkali+Heat pretreated WAS had a higher portion of less biodegradable organic compounds with high- molecular weight in the soluble sample than that of the Alkali+Heat pretreated sample. Conclusion This study was conducted to clarify the relationship by comparing the hydrolysis rate and AD efficiency according to the application of Acid+Heat and Alkali+Heat pretreatment. It was found that the amount of methane generated could vary depending on the properties of the dissolved substances in response to different pretreatment approaches.
Comparison of Relationship between Solubilization and Methane Productivity on Anaerobic Digestion of Pre-treated Waste Activated Sludge
Byung-Kyu Ahn (author) / Tae-Hoon Kim (author) / Hyojeon Kim (author) / Seoktae Kang (author) / Yeo-Myeong Yun (author)
2022
Article (Journal)
Electronic Resource
Unknown
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