这些改良的大肠杆菌发酵生物质中所含的糖类以生合成异戊二烯,并以气体形式释放出来。
The modified organism ferments sugars in the biomass to produce isoprene, in such a way that it bubbles out as a gas.
厌氧发酵生物制氢技术可利用有机废水及固体废弃物等进行氢气生产,制氢过程清洁、节能。
The study of the biohydrogen anaerobic fermentation technology, mainly focuses on the details of hydrogen production bacteria screening and the hydrogen production process optimization.
如今是有很多种方法来制造生物燃料,但多数情况下还是采用化学反应,发酵和热能来分解植物中的淀粉、糖分以及其他分子。
There are various ways of making biofuels, but they generally use chemical reactions, fermentation, and heat to break down the starches, sugars, and other molecules in plants.
在目前,“生物燃料”仅指由玉米或甘蔗中的糖类发酵产生的乙醇或由加工过的植物油脂所产生的植物柴油。
At the moment, "biofuel" means either ethanol made by the fermentation of sugars from cane or maize, or biodiesel from processed plant oils.
现在,几乎所有制造生物燃料的微生物都是通过发酵作用实现的。
At the moment, the microbes which make biofuels almost all do so through fermentation.
最后这些糖在酵母或细菌的发酵作用下产生生物乙醇或其它生物燃料。
Finally, these sugars are fermented with yeast or bacteria to produce bioethanol or other biofuels.
发酵加工过程也被广泛应用于微生物培养物,酶制剂,调味剂,香料,食品添加剂以及其他一系列高附加值产品的生产。
Fermentation processing is also widely applied in the production of microbial cultures, enzymes, flavours, fragrances, food additives and a range of other high value-added products.
但是,异丁醇并不能像乙醇那样可以由微生物发酵糖分轻易制得。
But it's not easy to produce isobutanol with the help of microbes like the ones that ferment those sugars into ethanol.
微生物发酵剂在质量和纯度方面通常差异很大。
Microbial starter cultures vary widely in quality and purity.
在德国,60%的生物排泄物都被发酵处理,捷克,英国以及荷兰对排泄物的处理率紧随其后(如图)。
Germans already process about 60% of their faeces this way, and the Czechs, Britons and Dutch are close behind (see chart).
释放植物有用能源的一个方式是将其发酵转化为生物燃料,就如SyntheticGenomics,LS 9and Amyris他们正在尝试做的。
One way to release useful energy from plant matter is to ferment it into biofuels, as Synthetic Genomics, LS9 and Amyris are trying to do.
该软件应用于带搅拌的夹套式加热的生物发酵装置。
This software has been used in a biological fermentation device with stirring and sandwiching heating features.
这个专业将微生物学,发酵学和制酒相结合。
This major combines microbiology with zymology and wine - making studies.
微生物除了发酵中作为物理和生物学变化的试剂外,它们本身也能被用作一种食物来源。
Besides microorganisms' actions in fermentation AS agents of physical and biological change, they themselves can be used AS a food source.
微生物发酵工程是生物工程和现代生物技术及其产业化的基础。
Animalcule fermentation engineering is the foundation of bioengineering as well as modern biology technology and bioengineering industrialization.
介绍了生物技术发酵生产DHA和AA的工艺,并讨论了发酵产品在婴儿配方奶粉中应用的安全性。
The production process of DHA and AA by fermentation and the safety of fermentation product applied in infant formula were dis cussed.
溶解氧的检测对于微生物发酵过程控制及优化起着重要作用。
Detection of dissolved oxygen is very important for the control and optimization of microbe fermentation process.
一切发酵过程都是微生物作用的结果。
All fermentative processes are the results of microbial activity.
最简单的发酵过程可以只是把微生物与营养培养基混合,使其中的组分发生反应。
In its simplest form fermentation processes can be just the mixing of microorganisms with a nutrient broth and allowing the components to react.
在固态发酵中,准确测定生物量是一项非常重要但又尚未很好解决的问题。
It is an important and unsolved problem to measure biomass precisely during solid-state fermentation.
发酵是生物肥生产的关键工序。
Fermentation is the key in the process of producing bio-fertilizer.
A 7掌握现代生物技术包括基因工程、细胞工程、酶工程、发酵工程、生物信息学等相关学科的专业理论知识。
A7 Grasp theory of modern biotechnology such as gene engineering, cell engineering, enzyme engineering, fermentation engineering, and bioinformatics etc.
微生物除了发酵中作为物理和生物学变化的试剂外,它们本身也能被用作一种食物来源。
AS agents of physical and biological change, they themselves can be used AS a food source.
概述了烟叶发酵机理、发酵工艺、微生物和酶在烟叶发酵过程中的作用研究进展。
The mechanism of tobacco fermentation and the role of microorganism and enzyme in tobacco fermentation were reviewed.
概述了烟叶发酵机理、发酵工艺、微生物和酶在烟叶发酵过程中的作用研究进展。
The mechanism of tobacco fermentation and the role of microorganism and enzyme in tobacco fermentation were reviewed.
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