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通过实时控制策略实现短程硝化反硝化

Shortcut nitrification-denitrification by real-time control strategies.

作者信息

Gao Dawen, Peng Yongzhen, Li Baikun, Liang Hong

机构信息

State Key Laboratory of Urban Water Resource and Environment, Harbin Institute of Technology, Harbin, Heilongjiang, China.

出版信息

Bioresour Technol. 2009 Apr;100(7):2298-300. doi: 10.1016/j.biortech.2008.11.017. Epub 2008 Dec 21.

Abstract

The study aimed at solving the instability of shortcut nitrification-denitrification through real-time control strategies. The results showed that excess aeration (aeration was still on after nitrosation) had an adverse impact on the stabilization of shortcut nitrification-denitrification, with nitrosation ratio (NO(2)(-)-N/NO(x)(-)-N) decreasing from 96% to 29% after excess aeration for 13 cycles, indicating that excess aeration was prone to change nitrification modes from shortcut nitrification to full nitrification. By using real-time control, shortcut nitrification and full nitrification were clearly detected by characteristic points on ORP and pH curves. Thus, aeration was stopped once nitrosation was completed, and shortcut nitrification-denitrification was maintained with nitrosation ratio (NO(2)(-)-N/NO(x)(-)-N) higher than 96%. The study showed that real-time control strategy could prevent excess aeration and achieve stable shortcut nitrification-denitrification.

摘要

该研究旨在通过实时控制策略解决短程硝化反硝化的不稳定性问题。结果表明,过度曝气(亚硝化后曝气仍持续)对短程硝化反硝化的稳定性有不利影响,过度曝气13个周期后,亚硝化率(NO(2)(-)-N/NO(x)(-)-N)从96%降至29%,这表明过度曝气易于使硝化模式从短程硝化转变为全程硝化。通过实时控制,利用ORP和pH曲线上的特征点能够清晰地检测到短程硝化和全程硝化。因此,一旦亚硝化完成便停止曝气,从而维持亚硝化率(NO(2)(-)-N/NO(x)(-)-N)高于96%的短程硝化反硝化。研究表明,实时控制策略能够防止过度曝气并实现稳定的短程硝化反硝化。

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