1)  bioflocculation bacteria
微生物絮凝菌
1.
To reduce the poisonous compounds in the breeding ponds,five species of bacteria including(nitrobacteria,) denitrobacteria,photosynthetic bacteria(PSB),thiobacteria and bioflocculation bacteria were screened from the breeding water.
4%,光合细菌和硫化细菌对硫化氢的去除率为55%,微生物絮凝菌的絮凝效率为83%;复合功能菌对CODCr、NH4+-N,总氮、硫化物的去除率分别可达94。
2)  Microorganisms
微生物
1.
Current studies on microorganisms in jet fuels;
喷气燃料中微生物的研究现状
2.
The technology and application of microorganisms metallurgy;
微生物冶金技术及其应用
3.
Effects of the earthworms on the microorganisms and enzyme activities in the Zn polluted soil;
蚯蚓活动对锌污染土壤微生物群落结构及酶活性的影响
3)  microbe
微生物
1.
The research status of the influence of aluminum compounds on microbe activity in water;
水中铝盐对微生物活性影响的研究现状
2.
The Application and Prospect of the Technology of Microbe and Enzyme during Tobacco Leaf Fermentation;
微生物和酶学技术在烟草发酵中的应用及展望
3.
Research on Capillary Electrophoresis in Microbe Analysis;
毛细管电泳分析微生物的研究进展
4)  biofilm
微生物膜
1.
Initial Corrosion Behavior under Biofilms of Metal Material in Sea Water;
海水中微生物膜下金属材料初期腐蚀行为
2.
Identification of compositions of the biofilm in a Beijing simulator water distribution system pipe networks by PCR and single strand conformation polymorphism(PCR-SSCP) technique and analysis of its heterotrophic bacterial by heterotrophic plate count(HPC) were performed.
以北京市模拟给水管网管壁微生物膜为研究对象,采用HPC(异养菌平板计数)和PCR-SSCP(单链构象多态性)方法,分析模拟给水管网管壁微生物膜异养菌数目和微生物群落结构。
3.
The progress of these techniques and some techniques used in biofilm related problems are discussed.
对微生物膜中生物大分子化学分析做了介绍。
5)  microbial morphology
微生物相
6)  microbes
微生物
1.
Dynamic Change of Eichhornia Crassipes Root-zone Microbes in the Process of Water Purification;
污水净化过程中凤眼莲根区微生物的变化
2.
Effect of high pressure on the number of microbes and polyphenols in fresh apple juice;
高压处理对鲜榨苹果汁中微生物和酚类影响的研究
3.
The polysaccharides in microbes and their constitute and structures;
微生物的天然多糖及其组成结构
参考词条
补充资料:微生物絮凝剂
分子式:
CAS号:

性质:是由具有絮凝作用的微生物制成的用于水和废水处理的新一代絮凝剂。目前使用的絮凝剂主要有两大类:一类是无机盐类物质,如铝盐、铁盐及其聚合物;另一类是有机高分子类物质,如聚丙烯酰胺衍生物等。这些絮凝剂尽管非常有效,但铝会引起老年痴呆症,聚丙烯酰胺中残留的丙烯酰胺单体是致癌物,因此研制开发安全无毒、无二次污染的微生物絮凝剂已越来越引起各国科研工作者的重视。已经发现,许多微生物能产生絮凝物质,其中具有最强絮凝作用的是红平红球菌(原称红平诺卡氏菌),这种细菌在日本旱田土壤中常见,在沉降性良好的活性污泥微生物相中约占2%。用它开发的微生物絮凝剂命名为NOC-1。  

说明:补充资料仅用于学习参考,请勿用于其它任何用途。