Fuel ethanol is produced by microbial fermentation in China.
我国采用发酵法生产燃料乙醇。
Fuel ethanol is regarded as the optimal fuel substituting for and economizing gasoline at abroad.
在国外燃料乙醇被视为替代和节约汽油的最佳燃料。
The technology of fuel ethanol production by solid fermentation with distiller biomass was studied.
研究了采用固态发酵工艺利用酒糟生物质生产燃料乙醇的工艺。
Due to dwindling of fossil fuel, fuel ethanol has been trusted as an alternate fuel for the future.
由于石油的日渐枯竭,燃料酒精有望成为未来替代汽油燃料的能源。
For the conversion of lignocellulose into fuel ethanol by microorganisms is being studied intensively.
利用微生物将木质纤维素转化成乙醇已成为当前研究的热点。
Guangxi has plentiful cassava resource, which is an ideal feedstock for production of renewable fuel ethanol.
广西具有丰富的木薯资源,以木薯为原料生产的燃料乙醇是一种可再生的燃料。
A life cycle energy assessment model of cassava-based fuel ethanol was established based on life cycle theory.
利用生命周期评价理论,建立了木薯燃料乙醇生命周期能源效率评价模型。
The conversion process of fuel ethanol utilizing lignocellulosic biomass involves hydrolysis and fermentation.
以纤维素为原料生产乙醇主要包括水解和发酵两个转化过程。
The establishment of two national standards "Ethanol gasoline for motor vehicles" and "Denatured fuel ethanol".
“车用乙醇汽油”、“变性燃料乙醇”两项国家标准的制定;
This study provided a basis for optimization of production technology of fuel ethanol with corn stalk as material.
为优化利用玉米秸秆为原料生产燃料乙醇的工艺提供了依据。
Fuel ethanol, which is renewable, fully burning and less pollution, spread in the world as a new alternative energy.
燃料乙醇因具有可再生、燃烧充分、对环境污染小等优点被作为新型替代能源在世界各国推广应用。
The pretreatment of lignocellulose is a critical step in the production of fuel ethanol by lignocellulosic materials.
纤维质物料的预处理是木质纤维素原料生产燃料乙醇的关键步骤。
This text discussed the ferment technology of sugarcane produces fuel ethanol and its present conditions and the progress.
详述了国内外甘蔗生产燃料乙醇的发酵技术的现状及进展。
It is credible that, wheat fuel ethanol can be used as the substitute of fossil energy in china from view of energy economy.
从能源经济性角度看,中国小麦燃料乙醇可作为化石能源的代用品之一。
Since 2000, Siemens has supplied the process automation systems for two-thirds of the fuel ethanol plants built in the U. s.
从2000年起,西门子为美国三分之二的燃料乙醇厂提供了过程自动化系统。
The methodology of carbon balance analysis for fuel ethanol from corn was developed based on principles of life cycle analysis.
基于生命周期分析原理,建立了玉米燃料乙醇的碳平衡分析方法。
The method of net energy analysis for fuel ethanol from corn was developed based on principles of life cycle inventory(LCI) analysis.
基于生命周期清单分析原理,建立了玉米燃料乙醇的净能量分析方法。
The sugarcane products fuel ethanol, which is the most advantage. The fermenting technology is key of sugarcane products fuel ethanol.
以甘蔗原料生产燃料乙醇的产出量最具优势,发酵技术是甘蔗生产燃料乙醇的关键技术。
In China, the main starch-containing non-grain feedstocks for producing fuel ethanol include sweet potato, cassava, canna edulis and vine root.
我国可用于生产燃料乙醇的非粮淀粉质原料主要有甘薯、木薯、蕉藕、葛根等。
Fuel ethanol is a kind of environment-friendly renewable energy, which can be blended into gasoline in a certain proportion to form ethanol gasoline.
摘要燃料乙醇是一种环境友好的可再生替代能源,可按一定的比例与汽油组分掺混成乙醇汽油。
Combined with the installation practice in Jilin fuel ethanol project, the construction methods of tank with oblique bottom and winder are separately discussed.
结合吉林燃料乙醇工程中斜底储罐和盘梯的安装实践,分别介绍了斜底储罐和盘梯的施工方法。
Lignocellulosic biomass is considered one of the most promising feedstock for producing fuel ethanol due to its global availability and environmental benefits.
以纤维素为原料生产燃料乙醇由于其原料来源广泛及环保效益良好而被认为是最有前景的生产燃料乙醇的方法之一。
Due to the pollution problem of MTBE, and the continuous uprising of international oil price, biological fuel ethanol has caused increasing attention of USA public.
由于甲基叔丁基醚(MTBE)的污染问题以及国际油价的持续高涨,生物燃料乙醇越来越受到美国社会公众的关注。
Cellulosic feedstocks mainly include straws, forest wastes and saw dust. Straw is the largest source of non-grain feedstock for producing fuel ethanol in China by output.
纤维质原料主要包括农作物秸秆、农林废弃物、木屑等,其中农作物秸秆是我国产量最大的非粮燃料乙醇原料。
The method of assay of principal constituents of denatured fuel ethanol by the set of liquid analyze with near-infrared spectroscopy(DA7200) has been expounded in this thesis.
本文论述了采用近红外光谱DA7200的液体分析装置检测变性燃料乙醇主要成分含量的方法。
The conversion of sugarcane, corn, cassava and fiber waste to fuel ethanol by microbial fermentation techniques has become an ideal approach to settle the worldwide energy crisis.
应用微生物发酵技术将甘蔗、玉米、木薯和纤维类废弃物等转化为燃料乙醇,已成为解决世界能源危机的一条理想途径。
The conversion of sugarcane, corn, cassava and fiber waste to fuel ethanol by microbial fermentation techniques has become an ideal approach to settle the worldwide energy crisis.
应用微生物发酵技术将甘蔗、玉米、木薯和纤维类废弃物等转化为燃料乙醇,已成为解决世界能源危机的一条理想途径。
应用推荐