Biomass Liquefaction

Biomass liquefaction in plasma heated entrained flow

生物质在等离子体携带流中热解液化技术的研究

Based on the comparison among the several major biomass liquefaction technologies , the advantages of the biomass indirect liquefaction to synthesize liquid fuel were obtained .

在着重对比分析几种主要的生物质液化技术基础之上，得出了生物质间接液化在制取液体燃料过程中的优势。

The advances of lignocellulosic biomass liquefaction , involving the methods , mechanism and applications of various lignocellulosic biomass were reviewed in this paper .

文章综述了木质纤维原料苯酚液化的发展状况，包括苯酚液化的方法、液化机理及各种木质纤维原料苯酚液化的应用。

Therefore , investigations on the process and mechanism of hydrothermal liquefaction of crop straws will not only provide a theoretical basis and fundamental data for the further development of straw biomass liquefaction technology , but also provide references for the effective utilization of other biomasses or organic wastes .

为此，开展农作物秸杆水热液化过程及机理的研究，不仅可为秸秆生物质水热液化技术的进一步开发提供理论依据和基础数据，而且可为其它生物质或有机质废弃物的有效利用提供参考。

Experimental Research on the Bio oil Derived From Biomass Pyrolysis Liquefaction

生物质热解液化生物质油的试验研究

Experimental Research on the Characteristic of Transporting Unit in the Biomass Pyrolytic Liquefaction System

生物质热解液化装置输料系统特性试验

Experimental Research on Biomass Pyrolysis Liquefaction

生物质热解液化实验研究

The research results obtained can offer an important reference for realizing a continuous and reliable biomass pyrolytic liquefaction process .

实验结果对实现生物质连续可靠的热解液化生产过程具有重要的参考价值。

Bio-oil , a liquid product from biomass via liquefaction or pyrolysis , is regarded as a promising renewable energy source .

生物油作为清洁的可再生能源，是由生物质热裂解或液化制备得到的产物。

Manufacturing engineering of the fluidized bed reactor is more riper than other biomass pyrolysis liquefaction set , and have more extensive application field .

在国内外众多类型的生物质热裂解液化装置中，流化床反应器制造工艺比较成熟，应用较广泛。

The experiment showed that the biomass pyrolysis liquefaction system of new type down flow tube reactor with solid carriers heating was working stably and had a high reliability and bio-oil collecting rate .

试验表明，研发的固体热载体加热新型下降管式生物质热裂解液化装置运行稳定，可靠性较好，液体收集率较高。

In view of the question which often formerly appeared in the biomass pyrolysis liquefaction equipment , it was independently designed a set of biomass pyrolysis liquefaction equipment improved . It contains four parts : Feeding system , FB , Cyclone separation system and Condenser system and so on .

针对以往生物质热解装置中常出现的问题，自行设计了一套进料量为10kg/h的生物质热解液化改进装置，它包含四部分：进料系统、流化床、旋风分离系统和冷凝系统等。

The key of biomass indirect liquefaction is the production of syn-gas . So focusing on the process of the biomass gasification combined with coal-based gasification technology , it summarizes that biomass entrained flow gasification for synthesizing the syn-gas on large scale is heading for a great future .

生物质间接液化的关键在于合成气的制取，于是从生物质气化工艺出发，结合煤基合成气气化技术，总结出生物质气流床气化在大规模制取合成气过程中具有广阔的发展前景。

Integrative Model and Experimental Study on Biomass Pyrolysis and Liquefaction

生物质热解液化综合模型构建与试验研究

Prospects of Biomass - Pyrolysis Liquefaction Technology

生物质热解液化技术的应用前景

It is high energy consumption and need inert gas for in FB biomass pyrolysis and liquefaction system .

流化床生物质热解液化系统能耗高，且需要惰性气体做载气。

Biomass Vacuum Pyrolysis Liquefaction System for Bio-oil

基于生物质真空热解液化技术的生物油制备

The research results show that the function relation exists between devolatilization percentage and temperature , which provides theoretical foundations for the further studies of the biomass flash pyrolysis liquefaction .

结果表明，挥发百分比与温度存在着一定的函数关系，为进一步研究生物质闪速热解液化提供了一定的理论基础。

Using the t - ω image of the time t of solid staying in rotating cone and angle speed ω of rotating cone to explain the effect to biomass pyrolysis and liquefaction process of cone angle .

利用固体滞留期f和转锥旋转角速度ω所绘制的t-ω图像，来说明锥角对生物质热解液化过程的影响；

Heat Transfer Model and Experimental Research on Biomass Fast Pyrolysis and Liquefaction

生物质快速热裂解液化传热模型与试验研究

Visual experiment validation of the lowest entrained speed in biomass fast pyrolysis and liquefaction reactor

生物质热解液化反应塔中最小携带流速的可视化试验验证

Bio-oil is a palm black liquid prepared from biomass through rapid pyrolysis liquefaction .

生物油是生物质热裂解产生的棕黑色液体。

This text overall survey current situation of biomass flash pyrolysis and liquefaction technology and the main research contents of this thesis : ① Design the device of pyrolysis system and confirm size of each device by oneself ;

本文较全面的综述了生物质热解制取生物油技术的发展现状，主要研究内容有：①自行设计了热解系统的主要装置并确定了各个装置的具体尺寸；

The utilization status of biomass thermal conversion technologies , including gasification , liquefaction and carbonization , were reviewed briefly in this thesis . The biomass fast pyrolysis liquefaction technology was studied in detail with the greatest emphasis on the development of the experimental apparatus .

本文对国内外生物质利用技术：气化、液化、固化的研究现状做了简要的介绍，对生物质快速热解液化技术进行了比较深入的探讨，重点介绍了下降管式生物质热解液化实验装置的研制过程。

Biomass fast pyrolysis technology is one of the most important approach for biomass liquefaction .

生物质快速热裂解技术是实现生物质液化的重要手段。

In order to study the movement of the biomass particles in the jet-entrained bed of the plasma heated biomass fast pyrolysis liquefaction prototype , a set of transparent cold device was designed and a precept of PIV investigation was raised .

为了研究生物质颗粒在等离子体快速热解液化设备的水平携带床中的运动，根据PIV分析对光路的要求，设计制造了一套透明的冷态模拟装置，提出了相应的PIV测试方案；

The current status of biomass ( straw ) utilization technology is expatiated . Problems with biomass gasification , liquefaction and direct combustion are analyzed in the paper .

阐述了生物质（秸秆）利用技术现状，分析了生物质气化技术、液化技术、直接燃烧技术存在的问题和不足。