目的研究碳源浓度变化对同步反硝化聚磷的影响。
Effect of nitrate concentration on phosphorus removal in denitrifying dephosphatation system;
通过控制缺氧段硝酸盐浓度,研究了反硝化聚磷菌的诱导方法及效果。
By controlling the nitrate concentration in the anoxic stage, the methods and effects of inducing Denitrifying Phosphate Accumulating Organisms (DNPAOs) were studied.
本发明涉及一种用于污水处理的反硝化聚磷方法及其所用的装置系统。
The present invention relates to a denitrification phosphorus-collecting method for treating sewage and its equipment.
经过3个阶段的选择和富集,反硝化聚磷菌在聚磷菌中的比例从15 %上升到73% 。
The proportion of DNPAOs increased from 15.5% to 73% of total phosphate accumulating organisms after three phase selection.
而反硝化 聚磷使反硝化与 聚磷这两个需 碳源的过程合而为一,从而可以解决 碳源的双重消耗问题。
This problem associated with COD limitation can be solved by introducing denitrifying phosphate-accumulating organisms responsible for anoxic phosphorus uptake into BNR processes.
而反硝化 聚磷使反硝化与 聚磷这两个需 碳源的过程合而为一,从而可以解决 碳源的双重消耗问题。
This problem associated with COD limitation can be solved by introducing denitrifying phosphate-accumulating organisms responsible for anoxic phosphorus uptake into BNR processes.
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