流化床燃烧

  • 网络fluidized bed combustion;CFB;FBC;PFBC
流化床燃烧流化床燃烧
  1. 流化床燃烧系统是一个具有混沌特性的非线性动力系统;

    The FBC is a non linear system which is chaotic .

  2. 石油焦流化床燃烧过程中氮氧化物的排放研究

    Study on the Emission of NO_x and N_2O During Combustion of Petroleum Coke in a FBC

  3. 循环流化床燃烧中NOx及SO2排放特性试验研究

    Emission Specific Property Experiment Study of NOx and SO_2 in Circulating Fluidized Bed Combustion

  4. 粉煤流化床燃烧中N2O的生成特性

    N_2O Production Characteristics in Pulverized Coal Fluidized Bed Combustion

  5. 流化床燃烧工况下N2O多相分解的机理研究

    Mechanisms of heterogeneous destruction of N2O under the conditions of fluidized bed combustion

  6. 油页岩流化床燃烧N2O排放特性的试验研究

    Test Study on characters of n_2o emission from fluidized bed combustion of oil shale

  7. 油页岩循环流化床燃烧N2O生成特性及控制技术

    Characteristic and Controlling Method of N_2O Emission Property of Oil Shale of Circulating Fluidized Bed Combustion

  8. 流化床燃烧温度下N2O与石油焦焦炭多相反应动力学的热重研究

    Thermogravimetric studies on the heterogeneous reaction kinetics of petroleum coke char with nitrous oxide under temperature range of fluidized bed

  9. 采用煤和生物质混烧的方法来降低流化床燃烧煤中N2O和NOx的排放。

    Co-combustion of coal and biomass can decrease N2O and NOx emission effectively .

  10. 燃煤流化床燃烧过程Fe及其氧化物在CO作用下对N2O/NO转化成N2的机理

    The reduction of nitrogen oxides n_2o / no in the presence of fe , its oxides , and CO in fluidized bed combustion of coal

  11. 颗粒油页岩在流化床燃烧过程中的传热Biot数

    Calculation of heat transfer Biot number of oil shale particles during fluidized bed combustion

  12. 随着流化床燃烧技术的发展与成熟,CFB锅炉得到了广泛的发展与应用。

    With the development and maturity of the fluidized bed combustion technology , CFB boiler has been a wide range of development and application .

  13. 为了研究原煤和半焦加压燃烧飞灰中多环芳烃(PAHs)的分布特性,本文在一台小型加压喷动流化床燃烧炉上进行了原煤和半焦加压燃烧试验。

    To investigate the distribution of PAHs in fly ash , the combustion of coal and residual char was tested in a pressurized spouted fluidized bed .

  14. 不同燃气轮机组成的增压流化床燃烧联合循环(PFBC-CC)变工况性能比较

    Off Design Performance Comparison for PFBC CC Constituted by Different Gas Turbines

  15. 流化床燃烧PAHs低温由高环芳香性物质的热分解和缩聚反应生成,高温由小分子烃类的聚合。

    During fluidized bed combustion , decomposition and condensation reactions are the main PAHs formation pathway at low temperature and polymerization of small hydrocarbons at high temperature .

  16. 针对循环流化床燃烧控制系统的特点,以主蒸汽压力为被控对象,设计了一个模糊自校正PID控制器并进行了仿真研究。

    This paper analyzes the dynamic characteristic of the controlled object of the stream pressure of CFB boiler , and presents a new design method of fuzzy auto-tuning pid controller based on of the stream pressure .

  17. 对燃煤挥发分热值的研究NIT燃煤增压流化床燃烧模型计算

    Study of the Heating Value of Volatiles in Coal A MATHEMATICAL MODEL FOR PRESSURIZED FLUIDIZED BED COAL COMBUSTION

  18. 本文针对循环流化床燃烧控制系统分别设计了基于T-S模型的模糊PID控制器和基于模糊粗调及模糊细调原则的模糊自整定PID控制器,并进行了计算机仿真。

    To the combustion control system of circulating fluidized bed boiler this text designs two types fuzzy-PID controllers : the self-tuning parameter fuzzy-PID controller and the fuzzy-PID the controller according to the model of T-S.

  19. 本文叙述了NIT增压流化床燃烧装置和它的启动运行,以及试验研究的初步结果。

    In this paper , the NIT pressurized fluidized bed combustion facility , its start-up and preliminary experimental results are described .

  20. NERC在循环流化床燃烧技术领域的研究与开发

    R & D activities of circulating fluidized bed combustion technology in NERC

  21. 煤炭燃烧,特别是800~950℃低温流化床燃烧,会排放大量的N2O。

    When coal burns , in particular , on the 800 ~ 950 ℃ low temperature fluidized bed , a great amount of N 2O will be discharged .

  22. 氧化亚氮(N2O)是一种对大气环境有很大破坏作用的污染气体,煤的流化床燃烧是其重要来源。

    Nitrous oxide ( N2O ) is a pollutant gas which has very strong destruction influence on atmosphere environment . Coal combustion in fluidized beds is an important resource for N2O .

  23. 本文在小型流化床燃烧实验台上对焦碳燃烧过程中N2O的生成途径进行了实验研究,重点考察均相生成机理和非均相生成机理在其中的作用。

    Experimental study on N2O formation during char combustion has been carried out on a small-scale fluidized bed combustion reactor . The roles of homogeneous mechanism and heterogeneous mechanism have been investigated .

  24. 煤经过部分气化后的半焦中含有CaS。当半焦在循环流化床燃烧室(CFBC)中燃烧时,其中的CaS发生氧化-还原反应而释放出SO2。

    There exists calcium sulphide in char derived from partial coal gasification . Sulphur dioxide would emit due to the oxidation-reduction reactions while the char is combusted in circulating fluidized bed combustor ( CFBC ) .

  25. 研究高挥发份燃料的挥发份在循环流化床燃烧室(CFBC)中的释放分布对这类燃料在CFBC中的燃烧计算非常重要。

    It is very important to study characteristics of volatile matter liberation of high volatile fuels in circulating fluidized bed combustor ( CFBC ) .

  26. 针对过程工程研究所(原化工冶金研究所)建造的0.2MW快速流化床燃烧反应器进行了建模仿真。

    A 0.2 MW fast-fluidized bed combustor at Institute of Chemical Metallurgy built in 1983 was modeled .

  27. 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。

    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 .

  28. 提出了一种新型高效、清洁煤燃烧方法,即粉煤流化床燃烧(PCF-FBC),并在一个热输入为0.3MW的试验装置上进行了热态试验研究。

    Abstract A new way of highly efficient clean combustion of pulverized coal , i. e.pulverized coal fluidized bed combustion ( PCF-FBC ) has been proposed , and hot state tests performed on a test rig , the hot state input of which is 0.3 MWt .

  29. 在增压流化床燃烧(PFBC)中试电站,气力输送技术是关键性技术,它关系到以燃料是否能连续稳定送入增压流化床内,保证增压流化床正常稳定燃烧。

    Pneumatic transport technology is a key technology in PFBC experimental power-station , which is related to whether the fuel can be sent into the pressured fluidized bed continuously and steadily , and ensures the fuel to combust normally and steadily in the pressured fluidized bed .

  30. 介绍国电热工研究院1MWth循环流化床燃烧(CFBC)试验台的技术特点和设计参数,试验台可进行的试验内容和实际完成的试烧项目。

    This paper presents the technical parameters and features of 1 MWth test facilities for circulating fluidized bed combustion ( CFBC ) at Thermal Power Research Institute ( TPRI ) of State Power Corporation ( SP ), introduces the test items that can be proceeded and trial combustion projects completed .