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Although anaerobic digestion (AD) is becoming a widely accepted technology to treat municipal wastewater biosludge, or waste activated sludge, and various other organic waste streams, it is still not utilized in the pulp and paper industry. The pulp and paper industry generates large amounts of wastewater through their processes; however, the characteristics of pulp and paper mill biosludge is quite different compared to municipal biosludge and present many challenges in terms of AD. In this study, the feasibility of using thermal treatment to enhance AD performance was examined. The research…mehr

Produktbeschreibung
Although anaerobic digestion (AD) is becoming a widely accepted technology to treat municipal wastewater biosludge, or waste activated sludge, and various other organic waste streams, it is still not utilized in the pulp and paper industry. The pulp and paper industry generates large amounts of wastewater through their processes; however, the characteristics of pulp and paper mill biosludge is quite different compared to municipal biosludge and present many challenges in terms of AD. In this study, the feasibility of using thermal treatment to enhance AD performance was examined. The research was carried out from 2013-2015 at the University of Toronto under the supervision of Prof. D. Grant Allen and Prof. Elizabeth Edwards.
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Autorenporträt
Xian Meng (Sam) Huang holds a masters degree in Chemical Engineering from the University of Toronto, and bachelors degrees in biochemistry and chemical engineering. Sam originates from Beijing, China, and currently lives and works in Canada.