木质纤维素的结构导致其不易降解。
The structure of lignocellulose makes it hard to be degraded.
木糖的有效利用是木质纤维素全利用的基础。
Efficient use of xylose is the basis for using lignocellulose completely.
木质纤维素是地球上最充分的可更新的有机资源。
Lignocellulose material are the most abundant renewable organic resource on the earth.
杉树木质纤维素对酯型儿茶素类选择性吸附的研究。
Study on the specific adsorption of catechin gallates by cedar lignocellulose.
植物生物资源的木质纤维素生物质可以用在许多方面。
The lignocellulose biomass from plant bioresources can be utilized in many ways.
利用木质纤维素制备乙醇是解决能源结构的有效方法。
The production of alcohol from lignocellulose is an effective way to improve energy structure.
利用木质纤维素原料生产燃料乙醇是国际公认的难题。
The utilization of wheat straw to produce fuel ethanol is an issue which complexity has been internationally acknowledged.
微生物纯培养技术一直没有解决天然木质纤维素的分解难题。
Technique of microbial pure culture can not resolve the puzzle of lignocellulose degradation.
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。
For the conversion of lignocellulose into fuel ethanol by microorganisms is being studied intensively.
木质纤维素转化为乙醇是生物质能源转化过程中研究的热点。
Lignocellulose converted to bioethanol is currently a hot subject in bioenergy conversion research.
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。
The pretreatment of lignocellulose is a critical step in the production of fuel ethanol by lignocellulosic materials.
红菇对培养基的营养有特殊的要求,其分解木质纤维素的能力较弱。
It has special requirement in nutrient, and the decomposition ability to lignocellulose was weaker.
乙醇的高产依赖于木质纤维素水解液中六碳糖和五碳糖的共同发酵。
High ethanol yields are dependent on co-fermentation of hexose and pentose sugars present in lignocellulosic hydrolysates.
榛树萃取物具有调理的功效,而木质纤维素能塑造顺滑且易于打理的发丝。
Witch Hazel extract offers toning action and a wood cellulose derivative smoothes hair and facilitates detangling.
本文从木质纤维素生产燃料乙醇的利用原理及技术等方面进行了全面阐述。
The theory and technology of lignocellulosic materials for bioethanol production were expounded in this paper.
木质纤维素组分结构复杂,未处理的木质纤维素很难直接被微生物和酶降解。
Due to the special structure, untreated lignocellulosic was not able to be degraded directly by microbial and enzyme.
他们都是有一系列更小的分子组成,它们三种合起来就被称为木质纤维素,尤其是在木头中。
Each is made of chains of smaller molecules, and all three are often bound together in a complex called lignocellulose, particularly in wood.
最后,研究了胞外酶对农业废物堆肥中木质纤维素降解及微生物群落演替的影响。
The effects of extracellular enzymes on the lignocellulose degradation and the succession of microbial community in agricultural waste composts were studied.
发现在发酵过程中蜡样芽孢杆菌菌体产酶的过程也就是木质纤维素的降解糖化过程。
The results show that the process of biodegradation of lignocellulose is actually the simultaneous saccharification and fermentation.
目前,对木质纤维素原料的预处理方法主要有物理法、化学法、物理化学法、生物法。
Presently, the pretreatment methods of lignocellulose covered physical method, chemical method, physical & chemical method, and biological method.
且就整个栽培过程而言,姬松茸生长发育所需要的79.86%的碳源来自木质纤维素。
In the whole process of cultivation, 79.86% car-bon source for the growth and development of the fungus originated from lignocellulose.
本文从木质纤维素的生物可降解性出发,重点讨论白腐菌降解木质素酶系及其作用机理。
Here we make more discussion on the degradation of lignin by enzymes secreted by white rot fungi on the basis of biodegradation of lignin and cellulose.
木质纤维素是世界上最丰富的可再生性资源,而开发利用木质纤维素的关键就是纤维素酶。
Lignocelluose is the most abundant renewable resources in the world, and cellulase is the key of developing and applying lignocellulose.
在对木质纤维素稀酸水解液进行乙醇发酵中,耐发酵抑制剂和耐高浓度乙醇的菌种非常重要。
The essential technique in the ethanol fermentation from dilute-acid lignocellulose hydrolysates is to obtain the strains of tolerant ethanol and inhibitors.
在对木质纤维素稀酸水解液进行乙醇发酵中,耐发酵抑制剂和耐高浓度乙醇的菌种非常重要。
The batch-fermentation and fed-batch fermentation of dilute-acid lignocellulose hydrolysates to ethanol using different mixed immobilized cells have been studied.
在对木质纤维素稀酸水解液进行乙醇发酵中,耐发酵抑制剂和耐高浓度乙醇的菌种非常重要。
Mixed strain of free cells and different fermentative modes of batch and fed-batch fermentation were conducted to produce ethanol from dilute-acid lignocellulose hydrolysates.
研究了添加黄孢原毛平革菌胞外酶对农业废物堆肥中木质纤维素降解及微生物群落演替的影响。
The effect of extracellular enzymes of Phanerochaete Chrysosporium on the lignocellulose degradation and the succession of microbial community in agricultural waste composts were studied.
研究了添加黄孢原毛平革菌胞外酶对农业废物堆肥中木质纤维素降解及微生物群落演替的影响。
The effect of extracellular enzymes of Phanerochaete Chrysosporium on the lignocellulose degradation and the succession of microbial community in agricultural waste composts were studied.
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