生物质材料

  • 网络biomass material
生物质材料生物质材料
  1. 植物生物质材料聚集态改性与应用研究

    Aggregation State Modification and Application of Biomass Materials from Plant

  2. 也许不同的途径因不同的纤维素生物质材料而使用。

    Perhaps different pathways will be needed for different cellulosic biomass materials .

  3. 分别在750K,800K,850K,900K温度下,对几种典型生物质材料在层流炉上进行了闪速热解挥发实验。

    Lots of experiments on flash pyrolysis devolatilization for several biomass were carried out at 750K , 800K , 850K and 900K respectively in a laminar furnace .

  4. 对四种典型生物质材料的切削力进行测试和分析。

    Main cutting force of the typical biomaterials is tested .

  5. 生物质材料对水体中染料和其他有机污染物的吸附

    Adsorption of dyes and other organic pollutants on biomass materials from aqueous solutions

  6. 生物质材料低温热解特性实验研究

    Experimental Research On low Temperature Pyrolysis of Biomass Material

  7. 生物质材料在秒量级脉冲激光加热下的导热特性研究

    Study on heat conduction characteristics of biologic materials under second-time laser beam irradiation

  8. 将生物质材料液化进行合成制备新的材料,迄今为止已经有较长的研究时间。

    It has been a long time for liquefaction of biomass materials to synthesize new materials .

  9. 人造板是生物质材料资源节约有效利用的主要方法和途径。

    Wood-based panel is a primary way of resource saving and making effective utilization of biomass materials .

  10. 在可持续发展观已成为全球性共识的环境背景下,合理开发利用生物质材料日渐受到关注。

    With the increasing attention on sustainable development , utilization of bio-based materials became more and more important .

  11. 具有生物质材料和合成高聚物双重优点的生物质复合材料有着诱人的发展前景。

    Biomass composite , which has advantages of biomass material and polymer materials , has an encouraging prospect for development .

  12. 通过系统的实验,对常温下生物质材料在秒量级脉冲加热下的导热特性进行了研究,并且针对本实验的条件分别进行了抛物线型和双曲线型两种导热模型的数值模拟。

    Through experiments in different cases , the heat conduction of biologic materials in normal temperature under second-time laser beam irradiation is investigated .

  13. 低成本的生物质材料荷叶被首次用作吸附剂,去除水溶液中的阳离子染料。

    The low cost biomass material lotus leaf was firstly used as an adsorbent for the removal of cationic dye from aqueous solution .

  14. 其次,采用恒温和线性升温两种不同的实验方法,对影响生物质材料热解的各种因素进行了分析,进而得出了影响生物质材料热解的主要因素和影响的一般规律。

    Secondly , the different influencing factors and disciplinarian on biomass pyrogenation were analyzed by two experiment methods - constant temperature and lined calefaction .

  15. 竹子是性能最好的生物质材料之一,其生长迅速、材料来源广泛,成本低廉。

    Bamboos are one of the best biomass materials , which have good properties , quick growth , richness in natural resources , and low price .

  16. 实验结果表明:在所设置的处理温度和处理停留时间内,三种生物质材料发生不同程度降解转化。

    The results show that : in the set processing temperature and reaction residence time , all the three kinds of biomass materials could happen degradation reaction .

  17. 可再生、低成本、有效且易从环境获取的生物质材料越来越多地用于去除废水中的重金属离子。

    The biomass materials , which are renewable and cost-effective and gained from environment easily , are more and more used in removing heavy metal ions from wastewater .

  18. 生物质材料是地球上唯一可以大规模再生的能源,即是可再生能源,可以不断地为人类提供能量。

    Biomass material is the only energy which can be large-scale regenerated on earth , which is renewable energy , it can unceasingly provide energy to the human .

  19. 面对日益严峻的能源危机和白色污染等环境问题,壳聚糖凭借其良好的生物分解性,被认为是理想的生物质材料之一。

    The environmental problems such as energy crisis and white pollution are increasingly serious . Chitosan is considered to be one of ideal biomass materials because of its good biodegradability .

  20. 木材是一种最常见的天然生物质材料,具有良好的力学性能、生物相容性及生物活性,且来源广泛,可成为潜在的羟基磷灰石复合材料的基体材料。

    Wood is a common natural biomass material and possesses excellent biocompatibility , bioactivity , mechanical property and porosity , therefore it is suitable to be used as the substrate of the composite biomaterials .

  21. 竹材是一种结构独特且力学性能优良的生物质材料,是缓解我国木材资源紧张的重要的替代性材料之一。

    Bamboo is a kind of biomass material with unique structure and excellent mechanical properties and is one of the most important alternative materials which can alleviate the shortage of wood resources of our country .

  22. 由于水热体系中存有再浓缩现象,故在没有酸碱等催化剂存在的情况下,于本试验设置温度范围内是无法完全降解生物质材料中的纤维素和半纤维素组分的。

    However , because there is existed a phenomenon of re-concentrated during hydrothermal process , it was very different to completely decompose the cellulose and hemicellulose components in the biomass without the presence of a catalyst such as acid and alkali , especially in subcritical water condition .

  23. 在生物质能生产全生命周期的模拟和优化模型的基础上,系统采用数据挖掘方法(模糊c均值聚类和决策树)确定最优的生物质原材料收集存储和转化工厂的地理位置。

    System applies data mining methods ( Fuzzy C-means Clustering and decision trees ) to find the recommended storage and conversion plants locations under the help of the developed simulation and optimization model for the whole life cycle of bioenergy generation .

  24. 生物质固沙材料的固沙强度与木质素C5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 .

  25. 木塑复合材料(WPC)是以生物质纤维材料作为增强材料,与塑料复合而成的一类新型高性能、高附加值的绿色环保材料。

    Wood plastic composites ( WPC ), made from various plastics and biomaterials as reinforced materials , are a new type of green environmental composites with high performance and added value .

  26. 研究结果可为农作物秸秆的资源化利用、制备经济高效的生物质环境材料等提供依据。(2)H3PO4表面改性秸秆生物质环境材料,并研究了其对水中PAHs的去除性能。

    Results obtained from this work will provide the basis of achieving the resource utilization of crop stalks and the preparation of cost-effective biomaterials . ( 2 ) Surface modification of stalk biochars by H3PO4 , and their performances of PAHs removal from water were studied .

  27. 常见的脱水材料有分子筛类、生物质类材料等。

    Molecular sieves and bio-materials are popular anhydrous materials .

  28. 木纤维/聚乳酸生物质复合材料耐久性和生物降解性能

    Endurance and biodegradability of wood fiber / poly ( lactic acid ) bio-composites

  29. 复合方式对木纤维-聚乳酸生物质复合材料结构与性能的影响

    Effects of compounding modes on structure and properties of wood fiber-poly ( lactic acid ) bio-composites

  30. 以生物质纳米材料作为填料与聚合物材料进行复合改性是纳米复合材料领域新兴的研究方向。

    It is the new researching topic of nanocomposite materials that biomass nano-materials are used as fillers to modify polymeric matrix .