微生物氧化的矿石、料和覆盖岩层会产生酸性岩排水。
Microbial oxidation of ores, tailings, and overburden contributes to ARD.
采用间断操作的试验方法,探讨了碳酸锰矿石微生物氧化过程的作用机制。
The action mechanism of microbiological oxidation of rhodochrosite has been investigated by batch operation.
在那里,经称为脱氮的过程,微生物把氮转化为一氧化二氮(又称笑气)和一种称为二氮的惰性气体。
There, in a process called denitrification, microbes convert the nitrogen into nitrous oxide (also called laughing gas) and an inert gas called dinitrogen.
氧气充足的条件下,微生物生成一氧化二氮的速率很低。
Under well-oxygenated conditions, microbes produce N2O at low rates.
一氧化碳而非甲烷每一分子提供更多的能量给予饥饿的微生物。但是火星的一氧化碳含量非常稳定,比所宣称的甲烷含量还要高很多。
Carbon monoxide offers a lot more energy per molecule to hungry microbes than methane does-but Mars's carbon monoxide level is stable and much higher than the claimed methane level.
项目目标:将微生物与电化学催化系统结合起来,利用氢气和二氧化碳生产丁醇,再利用化学方法将丁醇转化为航空燃料。
Project Goals: Develop a combined microbial and electrochemical catalytic system that converts hydrogen and carbon dioxide into butanol, and find a chemical method to convert butanol into jet fuel.
这类微生物不但能够清除空气中的二氧化碳,而且能够快速繁殖——有些种类只用12小时就能翻一番,而青草及其他大型植物则需要好几个星期甚至好几个月才能达到这样的水准。
Not only do these microbes remove carbon dioxide from the air, they also grow quickly-some forms double in just 12 hours, whereas grasses and other large plants can take weeks or months to do so.
这些被称为浮游植物的微生物,吸收二氧化碳产生世界上一半的氧气量——这等于陆地上的植物和树木所产生的氧气量。
The tiny organisms, known as phytoplankton, also gobble up carbon dioxide to produce half the world's oxygen output-equaling that of trees and plants on land.
在海洋上层200米左右的水体中,有些死亡或排泄物质在微生物的作用下转变为二氧化碳,并重新进入大气层。
In the top 200 metres or so of the sea, some dead or faecal matter is turned back into CO2 by microbes and may then re-enter the atmosphere.
这种在潜水大量繁殖的紫微生物中发现的涂料可以利用太阳光将二氧化碳转化为碳水化合物,然后细菌就使用这些碳水化合物作为能量。
The pigment, found in purple microorganisms that thrive in shallow water, harnesses sunlight to convert carbon dioxide to carbohydrates, which the bacteria then uses for energy.
新发现微生物碳泵可以提供一种新的从大气中抽取二氧化碳的方式,这些方式从来都被认为对应对气候变化来讲是必要的。
The newly discovered microbial carbon pump could provide a novel way to extract CO2 from the atmosphere, should that ever be deemed necessary to combat climate change.
一些研究表明,在北半球高纬度地区的森林里,生物炭会加速微生物将有机物降解成可怕的二氧化碳。
Some studies suggest biochar can accelerate microbes degrading organic matter into dread CO2 in places like the boreal forests of the northern hemisphere.
美国环保署在很久之前就认可二氧化氯液体喷雾或二氧化氯气体对气味和微生物的抑制功效,包括在食品里、家中和任何有微生物需要被杀死的地方。
The EPA long ago approved spraying of ClO2-generating liquids or gas for odor and germ control on food products, home fabrics, and anywhere that germs need to be killed.
项目名称:开发一种集成式微生物电催化(aec)系统,利用二氧化碳生产液态燃料。
Official Name: Development of an Integrated Microbial-ElectroCatalytic (MEC) System for Liquid Biofuel Production from co2.
讨论了水分活度对微生物生长、食品中油脂的氧化、酶活力、食品的质构、食品中蛋白质和维生素的影响。
The effect of water activity on growth of microorganisms, lipid oxidation, enzyme activity, food texture as well as protein and vitamins were also discussed.
山葡萄酒浑浊的主要原因有酵母菌自溶、微生物污染、氧化过度、蛋白质和酒石酸盐过多等。
The main causations for the precipitate in amur grape wine are microzyme self-dissolve, microbial contamination, excessive oxidation and over quantity of tarter muriatic acid etc.
鱼鳔的生物结构为葡萄糖氧化酶提供了很好的微生物环境,非常有利于酶的固定化。
The tissue of swim bladder membrane provided a perfect micro-environment for glucose oxidase, and adapted to immobilized enzyme.
聚合物有几种主要的降解机理:热降解、化学物降解、氧化降解、微生物降解以及水解降解。
There are a few main degradation mechanisms: thermal degradation, chemical degradation, oxidation, microbial degradation and hydrolysis.
本文从土壤结构、水分、温度、氧化还原电位以及微生物活性等方面分析了水稻半旱栽培技术增产的原因。
The high yield technique on the rice ridge cultivation were discussed from soil structure, water-thermal regime, oxidation-reduction potential and microorganism activity in paddy soils.
同样,有其不利的方面,即保护病原微生物(包括真菌)不受宿主氧化系统的破坏。
On the other hand, it has its disadvantage:to protect the pathogenic microorganisms(including fungus) from damaging by oxidative system of the host.
可通过微生物的氧化还原作用、生物吸附富集和溶解作用,达到修复重金属污染土壤的目的。
The soil pollution by heavy metals are remedied by oxidation, reduction, bioadsorption and dissolution of soil microorganisms.
加工后的肉制品由于微生物污染、脂类物质氧化、肌红蛋白褐变等原因而导致败坏,必须对肉制品进行包装。
To prevent the spoilage of meat products resulted from microbial contamination, lipid oxidation and myoglobin Browning, packaging process must be carried out during meat products production.
目的:研究断奶小鼠在受到微生物刺激时,日粮核苷酸的抗氧化作用,并探讨其可能机制。
Objective: To study the effects of dietary nucleotides on anti-oxidation and its mechanism on newly weaned mice under stimulation.
甲烷氧化微生物在调节全球甲烷平衡中起着重要作用。垃圾填埋场覆土具有相当强的甲烷氧化能力。
Methanotrophic microorganisms play an important role in regulating global methane content, and landfill cover soil is proved to have high capacity of methane oxidation.
利用高温干热对微生物有氧化、蛋白质变性、电介质浓缩引起中毒等作用。
The sterilizer takes advantage of high temperature disinfection principle, which destroys cell bioplasm, denatures protein, and concentrates electrolyte to kill microorganisms.
为考查异化还原微生物在浸出金属氧化物中的行为,提高微生物浸出深海多金属结核的效率。
Behavior of microbial dissimilatory reduction in the process of bioleaching metal oxide was researched to increase the leaching efficiency of Marine manganese nodules.
土壤活性有机碳是指土壤中移动快、稳定性差、易氧化、矿化,并对植物和土壤微生物活性较高的那部分碳,常可用水溶性有机碳、微生物量碳和易氧化碳等来进行表征。
Soil labile organic carbon (LOC) refers to the fractions of organic carbons that are easy to move and to be oxidized and mineralized, and they are quite available to plant and soil microorganisms.
方便菌液内的益生菌在肠道内基质中可产生过氧化氢,它对几种潜在的病原微生物有抑制和杀灭作用。
The pro-biotics in convenient germ solution can produce in intestinal matrix hydrogen peroxide, which inhibits and kills several potential pathogenic microorganisms.
方便菌液内的益生菌在肠道内基质中可产生过氧化氢,它对几种潜在的病原微生物有抑制和杀灭作用。
The pro-biotics in convenient germ solution can produce in intestinal matrix hydrogen peroxide, which inhibits and kills several potential pathogenic microorganisms.
应用推荐