Iron ions are the nutrient fountain of iron bacteria. Iron ions not only destroy chemical equipment, but also influence the sense of people.
铁离子是铁细菌的营养源,除了对化工设备造成的危害外,还影响到人们的感官性状。
The planktonic microorganisms examinated in the cooling water included the total bacteria (TBC), iron bacteria and sulfate reducing bacteria, with the concentration of 2.
空调循环冷却水中浮游型微生物以细菌为主,总体看微生物污染相对较轻。
This paper introduces three kinds of bacteria which are the most hazardous for oilfield water injection, namely sulfate reducing bacteria, iron bacteria and saprophytic bacteria.
油田注入水中硫酸盐还原菌、铁细菌、腐生菌是危害最大的细菌,这三种细菌特性各异,相互之间还存在一定的联系。
This paper introduces three kinds of bacteria which are the most hazardous for oilfield water injection, namely sulfate reducing bacteria, iron bacteria and saprophytic bacteria.
摘要油田注入水中硫酸盐还原菌、铁细菌、腐生菌是危害最大的细菌,这三种细菌特性各异,相互之间还存在一定的联系。
Iron — and metal-concentrating bacteria create metallic ores.
铁——还有金属富集细菌造出金属矿团。
It is deficient in dietary fiber, essential fats, niacin, vitamin c, and iron, and overloaded with calories, saturated fat, environmental chemicals, and disease pathogens (bacteria and viruses).
牛奶缺乏膳食纤维、必需脂肪酸、烟酸、维生素c、铁,而含有过量的卡路里、饱和脂肪酸、环境化学物和疾病病原体(细菌和病毒)。
The destruction of the Titanic, started by a huge iceberg, will be finished by tiny, iron-eating bacteria. Karen Hopkin reports.
泰坦尼克号的毁灭,由巨大冰山开始,由微小噬铁细菌结束。
Ferredoxin: an iron-containing protein present in green plants and certain anaerobic bacteria that functions in electron transport reactions in biochemical processes such as photosynthesis.
铁氧化还原蛋白:绿色植物和某些抗生菌提供的一种含铁蛋白,在生化过程的电子传送反应中起作用,如光合作用。
Iron is the necessary micronutrient for cellular metabolism used by almost all bacteria.
铁是所有细菌活细胞代谢必要的微量营养元素。
What role can reduced iron play in providing energy for bacteria to speed the weathering and carbonation reactions of iron - and non-iron-containing minerals?
什么可以减少铁在为细菌提供能源而加快含铁盒非含铁矿物风化和碳化反应的作用?
Based on column experiments, we investigated the potential using sulfate reducing bacteria(SRB) and zero-valent iron(ZVI) to synergetic treat contamination in wastewater such as sulfate, uranium, etc.
本工作通过柱实验研究了硫酸盐还原菌(SRB)和零价铁(ZVI)协同去除废水铀和硫酸盐等污染物的潜力。
Through immobilizing the isolated Leptothrix bacteria on manganese sand and quartz sand, the iron and manganese removal efficiency by the biologically immobilized filtration columns were studied.
通过在锰砂及石英砂上固定自行分离的纤发菌属细菌,研究了生物固定化锰砂及石英砂滤柱的除铁除锰能力。
This reduces their efficiency in delivering iron to your baby, meaning that more iron is available to harmful bacteria (leading to digestive problems) and LESS is available to baby.
这降低了向机体转运铁的效率,意味着更多的铁被有害的细菌利用(导致消化系统的问题),而机体利用的铁就更少。
The study indicates that moderate thermophilic acidophilic iron-oxidizing or sulfur-oxidizing bacteria play important roles in bioleaching process.
这一研究表明,中度嗜热的铁或硫氧化细菌在浸矿过程中具有重要的作用。
This includes 27 strains of bacteria, from which Halomonas titanicae was isolated and found to be particularly partial to iron.
铁锈中的微生物居民包括27种细菌,从中离析中的Halomonastitanicae对铁有特殊的偏爱。
The microorganisms used for bioleaching are mainly iron-oxidizing or sulfur-oxidizing bacteria which live in acid condition.
能够进行生物浸矿的微生物主要是一些在酸性环境中生长的铁或硫氧化细菌。
The inactivation experiment, bacteria counting experiment and some other experiments indicated that biological oxidation had a significant effect on iron-removal in the said filter candle.
通过灭活试验和细菌计数等试验验证该滤柱在除铁中,生物氧化起主要作用。
The combined treatment of iron-carbon internal electrolysis and fixation Photosynthetic Bacteria anaerobic process may effectively improve the biodegradability of dyestuff wastewater.
利用内电解与固定化光合细菌联合处理工艺可以有效提高染料废水的生物降解性。
Each molecule of a protein called lactoferrin, for example, can bind to two atoms of iron. Because many pathogenic bacteria thrive on iron, lactoferrin halts their spread by making iron unavailable.
例如,每一个称为乳铁蛋白的蛋白质分子,可以绑定两个铁原子,因为许多病原菌成长中需要铁原子,乳铁蛋白通过绑定铁原子中止其在身体中扩散。
In biological leaching studies, L. ferriphilum has been widely reported and is considered the major iron-oxidizing bacteria.
在生物浸出研究中,嗜铁钩端螺旋菌被广泛报道,而且被认为是主要的铁氧化细菌。
Magnetotactic bacteria may play a significant role in biogeochemical cycles, especially in iron cycle.
它们在生物地球化学循环中起着重要的作用。
These proteins also ensure that the iron is NOT made available to "bad" bacteria, such as E. coli and Salmonella and therefore prevent their growth.
这些蛋白质也保证铁不被坏的细菌利用,比如大肠杆菌和沙门氏菌,而且能阻止他们生长。
The iron-oxidizing bacteria offer an indirect mechanism function. Increasing the mineral concentration can depress the dissolution of pyrrhotite;
增大矿浆浓度抑制磁黄铁矿的溶解,矿浆浓度过大会影响溶氧量、增大矿粒间的剪切力从而影响细菌的生长;
The iron-oxidizing bacteria offer an indirect mechanism function. Increasing the mineral concentration can depress the dissolution of pyrrhotite;
增大矿浆浓度抑制磁黄铁矿的溶解,矿浆浓度过大会影响溶氧量、增大矿粒间的剪切力从而影响细菌的生长;
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