本文主要研究内容
作者赵峰辉(2019)在《Study on Hydrolysis and Acid Production of Excess Sludge in EBPR System at 30℃》一文中研究指出:The residual sludge produced by the enhanced biological phosphorus removal process (EBPR) system was studied as the research object. The changes of physical and chemical indicators during the hydrolysis-acidification of sludge at 30°C were studied. The results showed that the concentration of SCOD reached a peak of 2377.40 mg·L-1 on the 7th day, and then gradually decreased. TN has a similar variation with NH4+-N and has been increasing throughout the reaction cycle. The concentration of SOP reached a maximum of 172.78mg·L-1 on the third day of the reaction, and thereafter stabilized at around 170 mg·L-1.
Abstract
The residual sludge produced by the enhanced biological phosphorus removal process (EBPR) system was studied as the research object. The changes of physical and chemical indicators during the hydrolysis-acidification of sludge at 30°C were studied. The results showed that the concentration of SCOD reached a peak of 2377.40 mg·L-1 on the 7th day, and then gradually decreased. TN has a similar variation with NH4+-N and has been increasing throughout the reaction cycle. The concentration of SOP reached a maximum of 172.78mg·L-1 on the third day of the reaction, and thereafter stabilized at around 170 mg·L-1.
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