1) hydrogen-oxidizing bacteria
氢氧化细菌
1.
Isolation,screening and characterization of hydrogen-oxidizing bacteria in soybean rhizosphere;
大豆根际土壤中氢氧化细菌的分离、筛选和基本特征
2.
Mineral salt agar medium(MSA) was used to separate hydrogen-oxidizing bacteria in soybean rhizosphere which were able to utilize hydrogen as sole energy.
以大豆根际土壤样品为研究材料,采用一个气体循环培养体系(持续通氢气装置),在适当的H2、O2和CO2下以H2作为唯一能源分离氢氧化细菌,结果共分离出40余株细菌,对其进行耗氢能力测定,结果显示有20株菌具有氧化氢功能和自养生长能力。
3.
The significance and purpose of our study is to screening the hydrogen-oxidizing bacteria that can promote the growth of plants and develop microbiological fertilizer to promote the sustainable development.
为进一步筛选对植物生长具有明显促进作用的氢氧化细菌,逐步开发微生物肥料以促进农业的可持续发展。
2) Hydrogenational Bacteria Population
氢化细菌
3) bio-oxidation
细菌氧化
1.
And their bio-oxidation durations are therefore different because of their different distributions in gold-bearing ores.
三种单矿物分布在金矿石中的含量不同,细菌氧化周期也随之改变。
2.
The result of the experiment shows that after 45 days bio-oxidation,the removing rate of iron of the ore in 0~5mm grain size is 28.
本试验在堆浸前对矿石进行了细菌氧化预处理 ,试验结果表明 :0~ 5mm粒级矿石经 4 5d氧化后 ,Fe的氧化率为 2 8。
3.
The bio-oxidation as a pretreatme.
含铜金矿石的细菌氧化作用导致硫化物溶解,铜呈硫酸铜形式被脱除。
4) biooxidation
细菌氧化
1.
Analysis of effective factors of pyrite biooxidation;
黄铁矿细菌氧化影响因素探析
2.
Optimization of Biooxidation Pretreatment Process of Hard-to-leach Gold Ore;
难浸金矿细菌氧化预处理工艺流程的优化
3.
The investigations on biooxidation mechanism of sulfides are reviewed, and the model for sulfide biooxidation is introduced.
综述硫化矿细菌氧化机理的研究结果 ,介绍硫化矿生物氧化模
5) Bacterial oxidation
细菌氧化
1.
Research and operations of gold extraction process by bacterial oxidation;
细菌氧化提金工艺的研究与生产实践
2.
Experimental study on bacterial oxidation of carbon-bearing high arsenic refractory gold concentrate;
含碳高砷型难浸金精矿细菌氧化试验研究
3.
Current status of studies on bacterial oxidation and pre-disposal of refractory gold ores;
难处理金矿石的细菌氧化预处理研究现状
6) bacteria oxidation
细菌氧化
1.
The experiment on bacteria oxidation preprocessing gold ore at Pangjiahe is introduced in this paper.
介绍细菌氧化预处理庞家河金矿的试验结果,该金矿经细菌氧化处理,可脱除45%~60%的硫,70%~80%的砷,氰化浸金率可从38%提高到88%~93%。
2.
This paper introduced 2704 controller and it′s application in controlling of bacteria oxidation of mineral with arsenic.
介绍了欧陆公司的 2 70 4控制器及其在含砷矿细菌氧化工艺控制中的应
3.
In the process of bacteria oxidation, cyanide in gold concentrate is poisonous to bacteria and severely impacts bacterial oxidation effectiveness, as a result, the content of cyanide in gold concentrate is strictly controlled in practice.
在细菌氧化过程中,金精矿含有氰化物,会对细菌起到毒害作用,严重地影响细菌氧化处理,因此实际生产时对金精矿中的氰化物含量提出了严格的要求。
补充资料:钴钼氢氧化物氧化物磷酸盐
CAS:68130-37-0
中文名称:钴钼氢氧化物氧化物磷酸盐
英文名称:Cobalt molybdenum hydroxide oxide phosphate; Molybdenum cobalt acid phosphate complex; Molybdenumcobaltacid phosphate complex
中文名称:钴钼氢氧化物氧化物磷酸盐
英文名称:Cobalt molybdenum hydroxide oxide phosphate; Molybdenum cobalt acid phosphate complex; Molybdenumcobaltacid phosphate complex
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条