...过控制FA实现,其原理是利用FA对氨氧化细菌 (ammonia-oxidizing bacteria,AOB) 和亚硝酸盐氧化菌 (nitrite-oxidizing bacteria,NOB) 的抑制浓度不同,且NOB更为敏感的特点,在启动初期,控制FA实现短程硝化非常有效,但由于NOB会逐渐对FA产生适应性而最终导致...
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结果表明:利用曝气时间实时控制,在每个周期内氨氧化菌(AOB)降解氨氮质量大于亚硝酸盐氧化菌(NOB)降解亚硝态氮质量;AOB的净增数量大于NOB净增数目。
Analysis shows that more nitrogen is oxidized by ammonia oxidizing bacteria(AOB) than by nitrite oxidizing bacteria(NOB) with more growth of the AOB than the NOB in each cycle when using this method.
结果表明:利用曝气时间实时控制,在每个周期内氨氧化菌(AOB)降解氨氮质量大于亚硝酸盐氧化菌(NOB)降解亚硝态氮质量; AOB的净增数量大于NOB净增数目。
Analysis shows that more nitrogen is oxidized by ammonia oxidizing bacteria(AOB) than by nitrite oxidizing bacteria(NOB) with more growth of the AOB than the NOB in each cycle when using this method.
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