燃烧控制

  • 网络combustion control;burning control;ACC
燃烧控制燃烧控制
  1. 用模块化DCS实现燃煤热水锅炉的燃烧控制

    The combustion control of a coal fired bolier performed by a modularized DCS

  2. 用PLC实现高炉本体数据采集及热风炉燃烧控制

    PLC - Based Data Acquisition for the Main Body of the Blast Furnace and the Combustion Control for the Hot-Blast Stove

  3. 在此基础上,得到维数与Red、热释放率及1次风流量等燃烧控制因子的依变关系,并讨论了湍流火焰分维结构的内在机理。

    The mechanism of fractal nature in turbulent flame structure is also discussed .

  4. 基于PLC与专家控制器的电解槽预焙烧燃烧控制系统

    Prebaked Electrolytic Tank Control System Based on PLC and Expert PID Controller

  5. 实践证明:脉动燃烧控制对象是带延迟的一阶惯性环节,因此对控制对象采用常规的PID控制策略完全可行。

    The furnace is an inertial system with delay , so PID control can be used .

  6. 常规大容量煤粉锅炉炉内通过燃烧控制降低NOx的主要措施探讨

    Principal Means of Reducing NO_x Emission by Controlled Combustion in Furnaces of Conventional Large Pulverized Coal Firing Boilers

  7. 空气分级燃烧控制电站锅炉NOx生成的试验研究

    Experimental Research of NOx Emission Controlled by Air-Staged Burning Method in Utility Boiler

  8. PLC在加热炉跟踪控制、燃烧控制等系统中表现出良好的控制性能。

    The GE90-30 PLC was found to have good controlling performance in tracking the furnace system and controlling the burning process .

  9. 炉子采用的PLC计算机控制及DCS系统实现最佳燃烧控制实可用靠。

    The furnace was equipped with PLC computer control and DCS system in order to gain the best combustion .

  10. 最后,用MATLAB下的模糊逻辑工具箱对所设计的燃烧控制系统通过计算机仿真研究,给出了几组仿真曲线,得出结论。

    At the end , the conclusion is drawn through the results of simulation by using the fuzzy tool box of MATLAB .

  11. 文章最后分析了降低联合循环机组NOX燃烧控制的方法。

    At last , this paper analyzes the way of combustion control of decreasing NOX of combined cycle unit .

  12. 本控制系统采用双重冗余的SiemensS7-400PLC装置,完成从数字传动级、基础自动化级到过程自动化级的炉底辊传动控制系统、燃烧控制系统、温度控制系统以及钢板跟踪等自动控制功能。

    Redundancy Siemens S7-400 PLC system is used for drive control , combustion control , temperature control and automatic tracking of plates .

  13. 本文介绍了用模糊控制完全替代常规的PID算法,并构成串级并联控制系统对加热炉进行燃烧控制。

    The conventional PID algorithm is replaced by fuzzy control for heating furnace . In this way , the heating temperature of the furnace can be controled by a cascade paralleled control system .

  14. 300MW单元机组燃烧控制系统分析与改进

    Analysis and Improvement of Firing Control System in 300 MW Unit

  15. 对陶瓷辊道窑的多变量解耦控制方法进行研究,并采用FPGA作为控制器,完成了基于FPGA的陶瓷辊道窑燃烧控制系统设计。

    A multi-variable decoupling method is put forward and FPGA is used as a controller . The ceramic roller kiln combustion control system based on FPGA is designed in this master thesis .

  16. 300MW单元机组煤粉炉燃烧控制系统的研究及其改进

    Study and improvement of 300 ? Mw-unit coal-fired boiler combustion control system

  17. 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 .

  18. 对于送风量控制系统和炉膛负压控制系统,则使用了模糊PID的控制策略,使燃烧控制系统品质得到整体的、有机的提高和优化。

    For the air supply control system and vacuum furnace control systems , we can apply fuzzy-PID control strategy so that the quality of combustion control system can achieve a whole , organic improvement and optimization .

  19. ACC实现自动燃烧控制/数据设定;对加热炉内的板坯进行合理加热;

    ACC is used for automatic combustion control and data setting , proper heating of slab , and accurate control of slab temperature and its evenness .

  20. 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.

  21. 将仿人智能控制理论(HSIC)应用于中小型燃煤锅炉燃烧控制系统,并给出了仿人智能控制器的设计。

    The HSIC is applied to the combustion system of middle and small boiler , its design is given .

  22. 重点分析了热处理明火炉燃烧控制策略,采用模糊PID控制策略、改进型双交叉限幅控制策略及专家控制策略,对煤气、空气流量及炉压进行调节。

    The burning control strategy of direct-fired furnace is put on more emphasis , taking the fuzzy PID control strategy , Second generation cross-limit control theory and expert control strategy to modulate gas flow , air flow and the pressure of the furnace .

  23. 同时,设计了燃油流量耦合系统的PID控制仿真,得到了满意的控制效果。再次,在燃油流量和空气流量独立控制的基础上,提出了基于模糊控制的变偏置双交叉限幅燃烧控制系统。

    At the same time , design a PID controller for fuel flow system , which gains satisfied control result . Thirdly , put forwards to the combustion control system characterized by a variable offset and dual-crisscross amplitude limit based on FUZZY controller .

  24. 镇海发电厂200MW火电机组燃烧控制系统的改造设计

    Retrofit Design of Combustion Control System for 200 MW Unit in Zhenhai Power Plant

  25. 330MW单元机组燃烧控制系统优化设计

    Optimized design of 330 MW unit combustion control system

  26. 具体介绍氧化铝生产过程中应用DCS进行燃烧控制的全过程,主要是燃料供给过程控制和主炉温度过程控制,给出了控制系统的组成和功能。

    The whole procedure of combustion control in aluminum oxide production process implemented by DCS is introduced concretely . Mainly the fuel supply control and furnace temperature control are described . The composition and functions of the control system are given .

  27. 将ADRC技术分别应用于大型火电机组过热汽温调节系统和燃烧控制系统,提出了新的过热汽温控制方案和燃料量控制方案。

    It apply ADRC technology to the super-heat steam temperture adjust system and combustion control system of large thermal power unit . Bring forward new type of super-heat steam temperture control and fuel rate control project .

  28. Z417/Z418蒸汽转化催化剂在镇海炼化公司制氢装置中的应用镇海发电厂200MW火电机组燃烧控制系统的改造设计

    APPLICATION OF STEAM REFORMING CATALYSTS Z417 / Z418 IN ZHENHAI REFINING & CHEMICAL COMPANY Retrofit Design of Combustion Control System for 200 MW Unit in Zhenhai Power Plant

  29. 该加热炉控制系统采用目前世界上先进的光缆通信、炉子自动燃烧控制模型(ACC),实现对钢温的精确控制,并通过模型中参数的调整,实现对不同规格板坯的优化加热。

    In the system , advanced optical fiber cable communication and automatic combustion control mathematics model are adopted to realize the precise control of slab temperature . Meanwhile , it also can implement the optimum heating of varied specification slab , based on the adjustment of parameters in the model .

  30. 详细介绍了镇海发电厂200MW机组自动化改造中燃烧控制系统的设计特点及其系统构成。

    Design characteristics of the combustion control system for automatization retrofit of 200 MW unit in Zhenhai Power Plant are demonstrated in detail . Composition of the combustion control system is also introduced .