英语人>词典>汉英 : 厌氧微生物 的英文翻译,例句
厌氧微生物 的英文翻译、例句

厌氧微生物

基本解释 (translations)
anaerophyte

更多网络例句与厌氧微生物相关的网络例句 [注:此内容来源于网络,仅供参考]

For example, a facultative anaerobe is an organism that can grow under anaerobic conditions but is also able to survive in aerobic conditions.

例如,兼性厌氧微生物就是既可以生长在厌氧条件下也可以在有氧条件下存活。

The wet environment of soil also got more anaerobic in the long submersed time and promoted the utilization of soluble phosphorus by anaerobe and its transformation to OP, which explained the dramatically augment of OP in both land soil and drainage streams.

同时, 在周期较长的淹灌期间,土壤潮湿的厌氧环境增强,促进了厌氧微生物对溶解态磷的吸收利用,将其转变成有机态磷,因而在灌区土壤和排水中有机磷含量均有极显著的提高。

The growth of microbes is proportional to the amount of ATP; therefor the velocity of aerobic retting with oxygen is far quicker than that of anaerobic retting without oxygen.

微生物的生长量与ATP的数量成正比,因此好氧微生物在有氧的条件下对胶质的降解速度比厌氧微生物在无氧的条件下快得多。

Dept.of Environ.Sci.Zhejiang Agricultural University,Hangzhou 310029)Abstract:The experiments on start-up of degrading-PCP anaerobic bioreactor carried out in two anaerobic bioreactors which were inoculated with unacclimated anaerobic sludge.

近年来,国外研究者基于厌氧微生物具有还原脱氯活性,已将厌氧生物工艺从用于处理一般有机废水,扩展到含氯代有机物等有毒难降解有机物废水处理及受污染环境的生物修复领域。

Ammonia nitrogen would affect the activity of anaerobic microbe, and with the synergistic reaction of ammonization, the effect was consolidated in the anaerobic digestion process of scale piggery wastewater.

中文摘要:氨氮对厌氧微生物的活性有一定的影响,规模化猪场废水在厌氧消化过程中,由于氨化作用,强化了这一影响作用。

Seeing that azo dyes can be reductively degraded by anaerobic microorganisms,an anaerobic treatment process for manufacturing wastewater was developed,in which easily degradable organic wastewater was used as supplemental carbon source.

鉴于厌氧微生物对偶氮染料的还原裂解作用,开发了以易降解工业有机废水作为外加碳源的染化废水厌氧生物处理的新技术。

The Fe^0 concentration and pH had optimal values during the decolorization of X-BR in Fe^0-anaerobic biological system. When Fe0 dose, initial pH value and X-BR concentration were 400 mg/L, 7 and 100 mg/L respectively, the decolorization rate of X-BR in the integrated system could reach up to 90% after 68 h reaction. Compared with pure Fe^0 and pure microorganism treatment systems, it could be improved about 40% under the same experimental conditions. In addition, the analysis result of UV-vis spectrogram indicated that Fe^0 could promote effectively biodegrading of anthraquinone dye X-BR and its intermediate products.

结果表明,在Fe^0-厌氧微生物体系中,Fe^0投加量和pH值均存在最适宜值,当两者分别控制在400mg/L和7,染料初始浓度和反应时间分别为100mg/L和68h时,该体系脱色率可达到90%以上;与相同反应条件下的纯Fe^0、纯厌氧微生物体系相比,该体系的脱色率提高近40%根据紫外可见光谱分析,Fe^0可有效促进厌氧微生物对X-BR及其中间产物的降解,实现完全脱色。

The present invention features that one kind of aerobiota is first used to ferment glucose, saccharified starch liquid, enzymolyzed cellulose liquid and other carbohydrate to produce glycerin, and one other kind of anerobic microbe is then used to convert glycerin into propylene glycol.

本发明的特征在于首先使用一种好氧微生物菌种发酵如葡萄糖、淀粉糖化液、纤维素酶解液等碳水化合物产生甘油,进而再通过另一种厌氧微生物菌种将甘油转化为1,3-丙二醇,其中第一步发酵所得到的发酵液可离心或过滤除去菌体,清液可直接进入第二步发酵或者经浓缩后作为第二步发酵的批式流加液,部分菌体可在连续发酵时循环使用;第一步发酵液也可不离心经灭菌后再进行第二步发酵。

Aerobes can decompose kenaf gums thoroughly into carbon dioxide and water with oxygen and generate a large amount of ATP. However, anaerobes can not decompose the kenaf gums thoroughly and generate much less ATP.

好氧微生物在有氧的条件下能将胶质彻底分解为二氧化碳和水并产生大量的ATP;而厌氧微生物在厌氧的条件下对胶质的分解不彻底,产生的ATP要少得多。

The quantities of ATP generated during the main part of the retting process of kenaf fibers by using both aerobes and anaerobes are calculated by applying bioenergetic principle.

本文首先应用生物能力学原理,从理论上计算了红麻胶质在好氧微生物脱胶和厌氧微生物脱胶两种条件下产生的ATP数量。

更多网络解释与厌氧微生物相关的网络解释 [注:此内容来源于网络,仅供参考]

anaerobe:厌氧微生物

anacardol 木+贾如酚 | anaerobe 厌氧微生物 | anaerobicglycolysis 无氧糖酵解

anaerobic:厌氧性

水中的有机物受到微生物的分解 , 不管是好氧性(Aerobic)或是厌氧性(Anaerobic)之情况下 , 均会分解产生氨(NH3) ,

anaerobium:厌氧菌,厌气微生物

anaerobiosis | 乏氧生活, 厌气生活 | anaerobium | 厌氧菌,厌气微生物 | anaerogenic bacteria | 非产气细菌

anaerobion; anaerobium:厌氧菌;厌氧微生物

"厌氧呼吸","anaerobic respiration" | "厌氧菌;厌氧微生物","anaerobion; anaerobium" | "厌氧生活","anaerobiosis"

anaerobic microbe:厌氧菌

anaerobic halophiles 厌氧嗜盐微生物 | anaerobic microbe 厌氧菌 | anaerobic reduction 厌氧还原作用

obligate anaerobes:专怀厌氧微生物

obligate aerobes 专性需氧微生物 | obligate anaerobes 专怀厌氧微生物 | obligate saprophyte 专性腐生菌

obligate aerobes:专性需氧微生物

obligate 专性的 | obligate aerobes 专性需氧微生物 | obligate anaerobes 专怀厌氧微生物

anaerobia:厌氧微生物;嫌气微生物

"剧渴","anadipsia" | "厌氧微生物;嫌气微生物","anaerobia" | "厌氧呼吸","anaerobic respiration"

anaerobia:[生]厌氧的

anabiozo: [生理.医]复苏,回生 | anaerobia: [生]厌氧的 | anaerobio: [生]厌氧微生物,厌气微生物,厌氧菌

anaerophyte:厌氧微生物

anaerogenic 不产气的 | anaerophyte 厌氧微生物 | anaerosis 呼吸间断