介绍了研究硝化细菌的意义,综述了国内外检测和计数硝化细菌的有关方法。
氮去除效率与水体硝化细菌数和植物量有显著的相关性。
焦化废水工业处理装置和实验室装置硝化菌群的分子比较
硝化池中氨氧化细菌amoA基因的检测及其多样性研究
1·The beneficial ammonifier and the nitrifying bacteria double increase, while the unbeneficial anaerobic bacteria and denitrifying bacteria are inhibited.
有益的氨化细菌和硝化细菌成倍增加,而无益的厌氧性细菌、反硝化细菌则受抑制。
2·The number of heterotrophic bacteria and nitrifying bacteria increased with the time of the hydraulic retention time, contrary to the nitrobacter.
根际细菌和硝化细菌数量随着水力停留时间增加而增加,而根际反硝化细菌数量则减少。
3·The nitrogen loss in internal-loop granular sludge bed nitrifying reactor was studied, and the results indicated that ammonia escape is an important factor causing nitrogen loss.
对内环流颗粒污泥床硝化反应器的氮损失现象进行了研究,结果表明氨逃逸是氮损失的主要致因。
4·Studies show that membrane bioreactor has good nitrifying ability.
通过研究,膜生物反应器具有较好的硝化能力。
5·The characteristics of shear rate in an airlift nitrifying bioreactor and its influencing factors were studied.
研究了气升式硝化反应器的剪切特性及其影响因素。