生产的原料:木质生物质,油籽,禾草,谷类作物残余物。
Feedstock. Woody biomass, oil seed, grasses, cereal crop residue.
将可再生的木质生物质有效地转化利用是当前全球研究的热点。
The efficient conversion and utilization of renewable lignocellulosic biomass is the hot research interest of the world.
规模化粉碎处理是木质生物质能源开发利用及产业化的重要环节。
Scale comminution is a necessary link for the utilization and industrialization of woody-biomass energy.
研究、建立了木质生物质粉碎过程的矩阵模型及粉碎动力学模型。
Matrix model of pulverized process and dynamic model of comminution have been established.
生产的原料:多年生禾草、生物质高粱、农作物残余物、大豆、木质生物质。
Feedstock. Perennial grasses, biomass sorghum, crop residues, soy beans, woody biomass.
初步进行了其他不同溶剂、不同催化剂以及还原气体的木质生物质直接液化研究。
The biomass was also liquefied in the others solvent at high temperature and high pressure in the presence of other catalyst with other reducing gas.
先进生物燃料的原料来源包括柳枝稷、大豆油、玉米油、农作物残余物、木质生物质等等。
Feedstock pathways for advanced biofuels include switchgrass, soybean oil, corn oil, crop residues, woody biomass and other feedstocks.
提出了一种基于紫外光谱快速测定木质生物质预提取液中糠醛(F)和羟甲基糠醛(HMF)的方法。
The present paper reports a rapid method for the determination of furfural (f) and 5-hydroxymethyl furfural (HMF) in pre-extraction liquors of lignocellulosic biomass based on UV spectroscopy.
木质生物质能是可再生能源的重要组成部分,快速热解技术是国内外木质生物质能源化的热点研究课题。
Woody biomass energy is an important part of the renewable energies; the fast pyrolysis technologies are the hotspot of studies on woody biomass energy both at home and abroad.
本文较全面、系统地综述了粉碎技术及生物质粉碎设备的国内外研究现状及存在的问题,分析确定了常见木质生物质利用方式的适用粉碎粒度。
In this paper, research status on comminution technology and equipment in domestic and abroad was summarized, appropriate particle size for usual utilization of woody-biomass was made sure.
显而易见,大多数异生物质的降解发生在活性生长之后,次级代谢木质素降解阶段。
Apparently most degradation of these xenobiotic compounds occurs after active growth, during the secondary metabolic lignin degradation phase.
非木本木质素磺酸镁(ML)来源于造纸厂非木本原料亚硫酸盐制浆废液,属于来源丰富、无毒的可再生生物质资源。
Non-woody magnesium lignosulfonate(ML) is produced as a by-product in the sulphite non-wood pulping, which is a very abundant and innoxious biomass resource.
开发表面活性剂的生物质资源有纤维素、木质素、淀粉、甲壳素、油脂和松脂等。
The primary biomass used for surfactant production usually is as follows: cellulose, lignin, starch, chitin, oil and fat and pine oleoresin(an exudate of pine trees) and so on.
生物质固沙材料的固沙强度与木质素c 5位交联程度呈现良好的线性关系。
It shows a good linear relationship between the sand stabilization strength of the biomass sand stabilization material and the cross-link degree of lignin C5 position.
木质纤维素是世界上储量最丰富、最廉价的可再生生物质资源,利用木质纤维素发酵生产有机酸具有重大的经济效益及社会效益。
The bioconversion of lignocellulosic materials for organic acid had great meaning to both economic and social benefit, owning to its renewable character, abundance and low price.
植物细胞壁主要由木质素和纤维素组成,是未来生物燃料生产最富有的生物物质来源。
Plant cell wall is mainly composed of lignins and polysaccharides, representing the richest source of biomass for future biofuel production.
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.
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.
大部分生物质是以木质纤维素的形式存在,含有75%的单糖(例如,木材和草:50%的纤维素和25%半纤维素)。
Most of biomass is in lignocellulosic form that contains 75% sugar units (e. g., wood and grass plants: 50% cellulose and 25% hemi-cellulose).
大部分生物质是以木质纤维素的形式存在,含有75%的单糖(例如,木材和草:50%的纤维素和25%半纤维素)。
Most of biomass is in lignocellulosic form that contains 75% sugar units (e. g., wood and grass plants: 50% cellulose and 25% hemi-cellulose).
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