流化床生物反硝化反应器去除饮用水中硝酸盐的研究

J. Holló, L. Czakó
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引用次数: 23

摘要

在大多数工业发达国家,可以观察到潜在水库的硝化程度日益增加。高硝酸盐含量是公共卫生标准所不能接受的。由于污染似乎是不可避免的,唯一现实的解决办法是在使用前进行净化。其中一个潜在的变化是生物反硝化与高度密集的设施,流化或膨胀床生物反应器。通过实验室和中试试验,详细分析了在建设满足高质量饮用水净化要求的净化系统中出现的问题及解决方案。关键是反硝化微生物和反硝化所需有机物的选择,这同时决定了细菌对载体材料的附着(自固定)、硝酸盐去除强度和后净化特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nitrate removal from drinking water in a fluidized‐bed biological denitrification bioreactor
In most industrially developed countries an increasing degree of nitrification can be observed in potential water reservoirs. High nitrate content is unacceptable by public health standards. Since contamination seems to be unavoidable, the only realistic solution is purification prior to utilization. One of the potential variations is biological denitrification with a highly intensive facility, a fluidized- or expanded-bed bioreactor. Based on laboratory and pilot plant experiments, a detailed analysis is presented on the problems arising and solutions offered in the construction of a purification system meeting high quality requirements of drinking water purification. The crucial point is selection of the denitrifying microorganisms and organic matter required for denitrification, which simultaneously determines the attachment of bacteria to the support material (autoimmobilization), the intensity of nitrate removal and the character of post-purification.
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