介绍了液化石油气储罐在火灾作用下的热响应变化规律。
Thermal response variation rules of LPG storage tank exposed to fire are expounded.
分析和研究了太阳热反射涂料的隔热原理和液化石油气球罐的传热特点,计算了球罐温度和渗入罐内热量。
The heat insulation principle of solar heat reflection coating and heat transfer features of LPG storage sphere have been analyzed and studied.
这些数据为热解液化工业示范装置的设计提供了依据。
These data has provided the basis for industry demonstration of the pyrolytic liquefaction.
生物质快速热裂解技术是实现生物质液化的重要手段。
Biomass fast pyrolysis technology is one of the most important approach for biomass liquefaction.
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。
Manufacturing engineering of the fluidized bed reactor is more riper than other biomass pyrolysis liquefaction set, and have more extensive application field.
将当前的天然气液化技术与热声制冷技术进行比较。
The current natural gas liquefaction technology is compared with thermoacoustic refrigeration technology.
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。
The research results obtained can offer an important reference for realizing a continuous and reliable biomass pyrolytic liquefaction process.
为此,对液化石油气储罐在池火灾环境下的热响应情况进行了大量的模拟试验研究。
Therefore, many simulation tests are conducted for the thermal response of LPG tanks when they are exposed to the pool fire.
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。
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.
结果表明,采用液化石油气作燃料的一种铝合金锭加热炉的热耗为845。
The results show that the heat consumption of this furnace which using liquefied petroleum gas as fuel is 845.
热壁加氢反应器是炼油与煤液化工程的关键设备。
Hot wall hydroprocessing reactor is the key equipment in oil refinery and coal liquefied.
化学转变中的液化、气化和热解技术是目前主要研究方向。
The chemical conversion techniques, e. g. liquefaction, gasification and pyrolysis, are the main orientation for research and development.
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。
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.
生物质热解液化技术得到的燃料产率很高,是高效率的生物质转化过程,并使生物质成为最有可能部分代替化石能源的可再生能源。
Biomass pyrolysis is an efficient process of biomass conversion with high yield of liquid fuel, which makes biomass the most promising renewable energy to substitute the conventional fossil fuel.
生物质热解液化技术是把低能量密度生物质转化为高能量密度液体产物的一种新型生物质能利用技术。
Biomass-pyrolysis has proved itself to be a new type of biomass-energy utilization technique which transforms biomass materials of low energy density into liquid products of high energy density.
液化石油气球罐升压器相当于一台热虹热吸式再沸器,液化石油气外送时使用。
The pressure booster of spherical LPG tanks works like a siphon reboiler when used for the send-out operation of LPG.
MEBO具有很强的自动液化、引流坏死组织的作用,同时具有促进创伤愈合的作用,是治疗热盲管伤及热贯通伤的理想用药。
It promoted the healing of the wounds. MEBO is an ideal drug for treating blindgut thermal injury and heat penetrating wounds.
研究了液化石油气储罐在火灾作用下的热分层现象和规律,并分析了热分层对储罐响应的影响,提出了储罐安全设计的原则和建议。
The liquid temperature stratification and its effect on the response process of LPG tank are studied, and the proposal for safety design is given.
生物质热解液化是一种很有前景的生物质利用方式。
Biomass pyrolysis and liquefaction is a promising way of biomass utilization.
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 biomass fast pyrolysis liquefaction technology was studied in detail with the greatest emphasis on the development of the experimental apparatus.
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 co-pyrolysis-liquefaction of coal and biomass is one of the new methods to convert coal and biomass to fuel and chemical materials.
系统介绍了第一个多股换热器前高低压制冷剂之间不进行回热的典型混合制冷循环液化天然气流程的计算方法;
There is not heat exchange between the mix refrigerant entering the compressor and the mix refrigerant leaving the water cooler.
通过试验分析,探索了煤直接液化残渣采用热态、小批量连续进料炼焦工艺的可行性。
The feasibility of thermal state continuative feeding coking process with coal liquefaction residue was discussed through experiment study.
根据本发明,根据至少一个后燃烧参数,特别是温度调节热解期间的液态或者液化物质的计量添加。
The incorporation of liquid or liquefied substances is controlled along with pyrolysis by means of at least one post-combustion parameter, in particular with the aid of a temperature sensor.
总结了固体生物质热解液化装置——一套循环流化床反应器冷态实验的结果。
This study work illustrated briefly the fluidization characteristics of a CFB reactor, which is designed for the biomass fast pyrolysis.
本文基于流体动力学不稳定性和热不稳定性理论,对液化天然气贮存非稳性进行了理论分析,并用热力学第二定律进行了物理解释。
Based on the hydrodynamic instability and thermal instability theory, this paper theoretically analyses the instability of LNG under storage condition.
以熔融氯化锌作为热载体,对聚丙烯(PP)的热解液化进行研究。
Pyrolysis and liquification of polypropylene (PP) were studied by using molten ZnCl2 as heat carrier.
结果表明模型能较好地预测高温环境下容器内液化气的热转换机理。
It is showed that the model can be successfully used to predict the mechanism of heat and mass transfer of LPG in some vessels under high temperature environment.
以玉米秸秆粉为原料在不同温度、不同喂料速率下进行一系列的热解液化试验。
Corn stalk powder was used for the pyrolysis experiments on the fluidized bed reactor at different reaction temperatures and feeding rates.
以玉米秸秆粉为原料在不同温度、不同喂料速率下进行一系列的热解液化试验。
Corn stalk powder was used for the pyrolysis experiments on the fluidized bed reactor at different reaction temperatures and feeding rates.
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