1) anaerobic microbe
厌氧微生物
1.
Effect of floccule addition on specific methanogenic activity of anaerobic microbe;
絮凝剂添加对厌氧微生物产甲烷活性的影响
2.
And its morphology, structure and chemical composition as well asthe characteristics of anaerobic microbe of different physiological groups have been observed and determined.
并对其形态、结构和化学组份及不同生理类群的厌氧微生物特性等进行了观察和测试,结果表明厌氧颗粒污泥高活性的原因。
3.
However, the recent studies indicate that a variety of anaerobic microbes are capable to degrade hydrocarbon with sulfate, nitrate, iron(III) or carbon dioxide as the sole electron acceptors.
近年来国外的研究表明,厌氧微生物能以硝酸盐、硫酸盐、三价铁或二氧化碳等为电子受体代谢烃,烃厌氧代谢的初始反应机理主要有延胡索酸盐结合反应、羧化反应、羟基化反应和甲基化反应,但国内还未见相关报道。
2) anaerobic microorganism
厌氧微生物
1.
A kind of porous polyamide carriers to immobilize anaerobic microorganisms was prepared by interfacial polymerization method.
采用界面聚合方法制备出固定化厌氧微生物多孔囊状聚酰胺载体。
2.
A method for ramie degumming by anaerobic microorganism was conducted.
研究了一种苎麻生物脱胶方法—厌氧微生物法。
3.
The main findings of the paper were as follows:(1) Natural pumice and zeolite can be applied as biocarriers in anaerobic filter since their porous surface could provide a well habitat environment to anaerobic microorganism.
论文主要研究结果如下:(1)浮石及沸石作为生物载体应用于厌氧滤池中,结果表明这种价廉易得的表面多孔性矿物质能给厌氧微生物提供良好栖息环境。
5) thermophilic anaerobic microbes
嗜热厌氧微生物
6) natural anaerobic microorganism
天然厌氧微生物
1.
Studies on biohydrogen production by biohydrogen fermentation of natural anaerobic microorganism.;
天然厌氧微生物氢发酵生产生物氢气的研究
补充资料:厌氧微生物
分子式:
CAS号:
性质:在无氧条件下可以生长的微生物。其中,在有氧环境下不能生长,甚至死亡的,称专性厌氧微生物,如梭菌属、脱硫弧菌属、丁酸弧菌属等。在有氧和无氧环境下都能生长的,称兼性厌氧微生物,如大肠杆菌等。
CAS号:
性质:在无氧条件下可以生长的微生物。其中,在有氧环境下不能生长,甚至死亡的,称专性厌氧微生物,如梭菌属、脱硫弧菌属、丁酸弧菌属等。在有氧和无氧环境下都能生长的,称兼性厌氧微生物,如大肠杆菌等。
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