hydrogen bacteria
英 [ˈhaɪdrədʒən bækˈtɪəriə]
美 [ˈhaɪdrədʒən bækˈtɪriə]
网络 氢细菌
双语例句
- Further investigation of this pathway might lead to understanding and improvement of the hydrogen production mechanism of these bacteria.
关于这个路径的进一步调查可以得到对这种细菌产氢机制的了解及提高认识。 - Research Progress on Device and Technology for Hydrogen Production by Photosynthetic Bacteria
光合细菌制氢试验装置及其技术研究进展 - Effect of Spectrum on Hydrogen Production by Photosynthetic Bacteria
光源和光谱对光合产氢菌群产氢工艺影响研究 - The utilization and efficiency of the different monosaccharide and disaccharides for fermentative hydrogen production with hydrogen production bacteria
产氢细菌对不同单双糖的发酵产氢利用与效能 - Optimization of Hydrogen Production Conditions of Photosynthetic Bacteria Group by Orthogonal Test
正交实验优选光合细菌混合菌群产氢的最佳条件 - He adds," There are hydrogen sulfide producing bacteria growing at several places on our Earth's oceans'bottoms today. "
他又说道,“当今,在地球海洋底部的好几个地方,都有释放硫化氢的细菌正在滋生。” - As Kang's theory is the only hydrogen peroxide to kill bacteria and fungi all of the maintenance, but to use not only the costs and trouble.
视康的双氧水是理论上唯一能杀死全部真菌和细菌的保养液,不过使用起来不仅开销大而且麻烦。 - In another demonstration they analyzed hydrogen production in bacteria for the University of Washington.
在另一项演示中,他们为华盛顿大学分析了细菌中的制氢过程。 - Law of Light Attenuation in Reaction Liquid of Hydrogen Production by Photosynthetic Bacteria under Anaerobic Condition
光合细菌制氢反应料液中光衰减规律研究 - Study on the Technology of Hydrogen Production by Photosynthetic Bacteria from Swine Manure Wastewater
畜禽粪便污水光合细菌制氢技术研究 - Hydrogen production by photosynthetic bacteria and the factors of affecting hydrogen production
光合细菌产氢及其影响因素光合菌生物制氢技术 - Study on Hydrogen Production by Bacteria
细菌产氢的研究 - Progress in the research on hydrogen production by photosynthetic bacteria
光合细菌产氢研究进展 - Aim: To investigate the influence of exogenous carbohydrates on the production capacity of hydrogen peroxide by oral bacteria.
目的:研究不同外源性糖对口腔细菌产生过氧化氢能力的影响。 - Factors influencing hydrogen production by photosynthetic bacteria from pig dejecta
猪粪污水光合细菌制氢的影响因素 - Anaerobic culture technique was adopted in this study to isolate a hydrogen producing bacteria in anaerobic activated sludge.
采用厌氧培养技术,从厌氧活性污泥中分离得到一株产氢发酵细菌。 - The experimental anaerobic operation of isolation and culture on hydrogen-producing and fermentative bacteria
发酵产氢细菌分离培养的厌氧实验操作技术 - Pure hydrogen producing bacteria were isolated from anaerobic fermentation sludge.
在厌氧产氢污泥中分离纯菌,通过发酵污泥混菌与纯菌的产氢能力的比较,表明了菌群间协同作用在产氢发酵中的作用。 - The influence of exogenous carbohydrates on the production capacity of hydrogen peroxide by oral bacteria
外源性糖对口腔细菌产生过氧化氢能力的影响 - Selection and improvement of culture for hydrogen producing bacteria
产氢发酵细菌培养基的选择和改进 - The gas phase was one of the important ecological factors that had effect on the ability of the hydrogen production of hydrogen producing bacteria ( HPB).
气相条件是影响高效产氢细菌产氢能力的重要生态因子之一。 - Determined by Biolog and Ability of Hydrogen Production Bacteria
产氢发酵细菌的Biolog菌种鉴定与产氢能力 - Hydrogen production activity of photosynthetic bacteria in different growth period was slightly different. Hydrogen production ability of photosynthetic bacteria in logarithm growth period was slightly higher than that in stable period and was obviously higher than lag phase and senescence.
处于不同生长期的光合细菌的产氢活性略有差异,处于对数生长期的光合细菌的产氢能力略高于稳定期,明显高于延迟期和衰老期。 - Industrial wastewater containing high sulfate concentration brings out serious environmental pollution. Sulfate can be biologically reduced to sulfide hydrogen with Sulfate-Reducing Bacteria ( SRB).
含高浓度硫酸盐的工业废水的排放引起严重的环境污染,利用硫酸盐还原菌可将硫酸盐生物还原为硫化氢。 - Promotion of hydrogen producing ability of hydrogen producing bacteria by several kinds of metal ions
几种金属离子对高效产氢细菌产氢能力的促进作用 - It was indicated that, support carriers could expand the activity scope of hydrogen production bacteria, make the system fairly stable in response to organic load impact and low pH value ( pH < 3.8), and maintain high biomass concentration in the reactor at low HRT.
研究表明,投加生物载体能够扩大产氢细菌的活性范围,提高系统的抗冲击负荷能力和耐低pH值的能力,增加系统稳定性,并且可使系统在低HRT下保持较高的生物量。 - It has strong prospects in the future to produce hydrogen by fermentation using biomass, while it is very popular to modify the hydrogen producing bacteria in the research field of bio-hydrogen.
利用生物质原料通过细菌发酵方法制取氢气新能源具有很强的应用前景,而通过基因工程和代谢调控手段改造产氢细菌是生物制氢领域的研究热点。 - Elemental iron and ferrous iron had an impact on the metabolism of production hydrogen bacteria.
单质铁和二价铁对产氢菌的代谢都有影响。 - Isolation of high-efficiency bacteria as the main research fields of science and technology of hydrogen production by photosynthetic bacteria is obtained the widespread attention from energy and environmental science research workers.
高效菌种选育作为光合生物制氢科学技术领域的主要研究方向得到了能源与环境科学界研究工作者的广泛关注。