Solvolysis is one of the important processes of biomass liquefaction.
溶剂溶解技术是生物质液化的重要过程之一。
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。
At present, the study on rotating cone flash pyrolysis and liquefaction unit of biomass is a focus and the core of this technology is the design of rotating cones.
转锥式生物质闪速热解液化装置是当今研究的一个热点,而该技术的核心就是对旋转锥设计。
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。
Thermochemical conversion of biomass includes gasification, pyrolysis and liquefaction.
对生物质液化的机理进行了剖析;
A set of transparent cold model was designed for studying the movements of biomass particulate in horizontal entrained bed of the plasma heated biomass fast pyrolysis liquefaction prototype.
为了研究生物质颗粒在等离子体快速热解液化设备水平携带床热解管中的运动,设计制造了水平携带床冷态模拟装置。
Biomass pyrolysis and liquefaction is a promising way of biomass utilization.
生物质热解液化是一种很有前景的生物质利用方式。
Microalgae biomass, as a renewable energy through liquefaction, can be turned into bio-oil, reducing consumption and reliance on fossil fuels.
微藻生物质做为一种可再生能源通过液化可以转化为生物油,减少人类对化石能源的消耗与依赖。
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。
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。
By DBD plasma technique, the liquefaction mechanism of solid burnable including coal and biomass was studied in the paper to explore a new way to utilize energy.
本文利用介质阻挡放电等离子体技术,对以煤和生物质为代表的固态可燃物液化反应机理进行研究,以期探索能源利用新途径。
Domestic and overseas research progress in technology on high-pressure liquefaction of biomass is reviewed.
综述了国内外生物质高压液化技术的研究概况。
The biomass fast pyrolysis liquefaction technology was studied in detail with the greatest emphasis on the development of the experimental apparatus.
本课题的目标是设计研制一种下降管式生物质热解液化装置。
The co-pyrolysis-liquefaction of coal and biomass is one of the new methods to convert coal and biomass to fuel and chemical materials.
煤与生物质共热解液化将是燃料与化学品重要的转化技术之一。
The present techniques for the utilization of biomass energy were reviewed in this paper, which include the molding fuel, boiler combustion, gasification and liquefaction, etc.
本文分析了与热能利用相关的生物质能转化利用的若干技术现状,其中包括成型燃料技术、锅炉燃烧技术、气化技术、和液化技术(制取二甲醚和燃料乙醇技术)等等。
The present techniques for the utilization of biomass energy were reviewed in this paper, which include the molding fuel, boiler combustion, gasification and liquefaction, etc.
本文分析了与热能利用相关的生物质能转化利用的若干技术现状,其中包括成型燃料技术、锅炉燃烧技术、气化技术、和液化技术(制取二甲醚和燃料乙醇技术)等等。
应用推荐