1) fluidized bed combustion
流化床燃烧
1.
Experimental studies on shells desulphurization in fluidized bed combustion.;
贝壳流化床燃烧脱硫的试验研究
2.
Micro-structure evolution of coarse particles in fluidized bed combustion process;
大颗粒煤流化床燃烧的微观过程
3.
On a small-sized (diameter 20mm and height 450mm) thermal-state fluidized bed combustion test rig an experimental investigation was carried out to ascertain the impact of different operating parameters on N_2O emission characteristics during the operation of a oil shale-fired fluidized bed boiler.
在一个直径 2 0mm ,高 4 5 0mm小型热态流化床燃烧试验台上 ,进行了不同运行参数对油页岩流化床燃烧过程中N2 O排放特性影响的试验研究。
2) fluidized-bed combustion
流化床燃烧
1.
Bed agglomeration characteristics during fluidized-bed combustion of biomass fuels;
生物质流化床燃烧过程中的结渣特性
2.
This paper gives an overview of the technologies for co-combustion of biomass and coal,especially the suspension and the fluidized-bed combustion technologies.
主要介绍了生物质与煤共燃技术,特别是悬浮燃烧技术和流化床燃烧技术。
3) Pressurized fluidized bed combustion
增压流化床燃烧
1.
The specific feature of pressurized fluidized bed combustion (PFBC) technology itself has led to the pneumatic transport technology becoming an effective means of continuous and stable feeding and discharge of solids for the above cited technology.
由于增压流化床燃烧 (PFBC)技术的自身特点 ,使得气力输送技术成为增压流化床燃烧技术连续稳定供料和排料的有效手段。
4) circulating fluidized bed combustion
循环流化床燃烧
1.
The Circulating Fluidized Bed Combustion---An accessible technology of clean coal combustion;
循环流化床燃烧──一项实用洁净燃煤技术
2.
A comprehensive model of circulating fluidized bed combustion (CFBS) is presented, based on the assumption that a descending dense phase and a rising lean phase coexist at every location within the riser.
利用循环流化床内气-固两相流动基础方面的研究成果, 提出床内气固浓-淡流动模型, 建立适用不同结构参数的循环流化床燃烧模型, 考虑了床内气体、固体颗粒的返混、循环过程以及煤燃烧、污染气体的生成和分解、颗粒磨损等过程。
3.
The results show that the coal properties such as volatile matter,ash content,and carbon content play an important role on the ash formation during circulating fluidized bed combustion.
5MW的循环流化床燃烧炉上对 4种不同煤种分别进行燃烧试验 ,对燃烧产生的灰渣的分析结果表明了煤种特性如挥发分、灰分和含碳量等对循环流化床燃烧过程的灰渣形成及其排放特性有很大影响 ,并获得了煤中挥发分、灰分及含碳量对底渣粒径及其含碳量、飞灰粒径及其含碳量、飞灰份额及燃烧效率等影响特性 ,对循环流化床锅炉的设计和运行有一定的指导意义。
5) CFBC
循环流化床燃烧
1.
The control on burning coal s pollutant about CFBC technology;
循环流化床燃烧技术对燃煤污染物的控制
2.
Investigation for the Mechanism of Agglomeration in the Process of CFBC;
循环流化床燃烧过程结渣机理的研究
3.
The emission specific property of NOx and SO2 in circulating fluidized bed combustion that was conducted in 1 MWth CFBC pilot plant of the nation power thermal engineering research institute by using the engineering coal, limestone and bituminous was summarized in this paper.
总结了在国电热工研究院1MWthCFBC试验台上进行的工程煤种和石灰石及烟煤在循环流化床燃烧试验中NOx及SO2排放特性。
6) Retrofitting
[英]['retrəfit] [美]['rɛtrəfɪt]
流化床燃烧技术
1.
Oil-fired Boiler s Retrofitting Using Circulating Fluidized-bed Combustion Tech nology;
用循环流化床燃烧技术改造35t/h燃油锅炉
补充资料:流化床燃烧
分子式:
CAS号:
性质:由于流化作用,使加入流化燃烧炉中的煤粉粒子被热质灰粒所包围,并从中吸取热量升温至燃烧温度,与炉内的氧气反应,迅速燃烧。流化燃烧即使流化床中只有1%~2%的可燃物质,也能维持燃烧。因此劣质煤和煤矸石能在流化燃烧炉中利用,这对于国民经济有很大意义。其次,由于流化燃烧炉内的温度较低而且均匀,有利于应用灰熔点低和初始软化点较低的固体燃料,而且NOx、CO类污染物生成量小,添加石灰石后,可除去绝大部分SO2,有利于环境保护。流化燃烧也用于城市垃圾及工业污泥的处理。
CAS号:
性质:由于流化作用,使加入流化燃烧炉中的煤粉粒子被热质灰粒所包围,并从中吸取热量升温至燃烧温度,与炉内的氧气反应,迅速燃烧。流化燃烧即使流化床中只有1%~2%的可燃物质,也能维持燃烧。因此劣质煤和煤矸石能在流化燃烧炉中利用,这对于国民经济有很大意义。其次,由于流化燃烧炉内的温度较低而且均匀,有利于应用灰熔点低和初始软化点较低的固体燃料,而且NOx、CO类污染物生成量小,添加石灰石后,可除去绝大部分SO2,有利于环境保护。流化燃烧也用于城市垃圾及工业污泥的处理。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条