制动电阻

  • 网络Braking resistor;brake resistor
制动电阻制动电阻
  1. 介绍了CKD8E型机车制动电阻装置的主要技术参数、构成和作用,陈述了全部设计过程,强调了设计中应重点解决的问题和注意事项。

    The main parameters composition and purpose of CKD_ ( 8E ) locomotive braking resistor were provided . The process of design was described , and the points for attention in design were given .

  2. CKD(8E)型机车制动电阻装置的设计

    Design of CKD_ ( 8E ) locomotive braking resistor

  3. SS3型机车制动电阻故障分析及防治措施

    Analysis and measure for braking resistance fault on type SS_3 locomotive

  4. 最后提出了利用串联制动电阻来提高风电机组的LVRT能力的新方法。

    Finally , the paper introduces a new method to increase the LVRT of wind turbines by means of series dynamic braking resistors .

  5. 地铁用制动电阻非线性温度场的分析

    Analysis of Nonlinear Temperature Field on the Face of Subway Brake Resistance

  6. 起重机变频调速应用中制动电阻的选择

    Selection on Braking Resistance of Variable Frequency Control for Cranes

  7. 基于扩展等面积法与遗传算法的制动电阻投切控制

    Switching control of breaking resistor based on EEAC and GA

  8. 地铁制动电阻的强非线性热力耦合分析

    Strongly nonlinear thermal-mechanical coupling analysis of Subway Brake Resistance

  9. 广州地铁2号线列车牵引系统以及制动电阻能耗试验及结果分析

    Energy Consumption Test of Traction System and Brake Resistor for Guangzhou Metro Line 2 Trains

  10. 以模糊变结构控制理论为基础,把汽门控制、制动电阻控制及附加励磁控制很好地协调起来。

    The turbo generator controller be based on the theory of variable structure control and the theory of fuzzy control .

  11. 通过不同冷却条件下计算结果的比较,为制动电阻片采取合适的方法抑制变形提供了依据。

    By comparison of solutions obtained under various cooling conditions , the theory ground was provided for adopting appropriate methods to restrain the deformation of the resistance chip .

  12. 电气传动采用能量再生式(回馈式)公用直流母线变频调速方案,取消了制动电阻等。

    In electric drive , an energy-regenerative ( feedback-type ) speed regulation scheme with frequency converted on common direct current busbars is adopted , resulting in eliminating braking electric resistances .

  13. 生产实践中常用外接制动电阻和制动单元消耗掉这部分能量。这种方法不仅浪费能源,还会使系统的发热量增加。

    External braking resistance and braking unit is usually used to consume energy in practice , which not only waste energy , but also make the calorific value of system increase .

  14. 西门子负责的部分包括:列车控制及诊断系统、牵引逆变器、辅助逆变器、制动电阻、高压箱及受电弓,以及牵引电动机和齿轮箱。

    Siemens'scope of supply includes : train control and diagnosis system , traction inverter , auxiliary inverter , brake resistor , HV box and Pantograph , as well as traction motor and gear box .

  15. 考虑温度对金属材料热物理性能的影响,建立了地铁制动电阻片的材料模型及非线性瞬态温度场的有限元分析模型。

    Material model of subway brake resistance chips and FEM analysis model of nonlinear transient temperature field were established by considering the influence of the temperature on thermal physical property parameters of the metal material .

  16. 对列车运行图、线路阻抗以及装置吸收电压等因素对地面制动电阻的影响进了仿真研究。本论文的仿真结果为广州地铁大学城专线地面制动装置容量设定和位置确定提供了重要的依据。

    Further research has been done about the effect factors such as train running graph , resistance of line , system voltage and so on , The simulation results provide an important basis for the grounding braking device capacity setting and location of Guangzhou subway .

  17. 对机车制动电阻通风和电阻带温升进行定量计算,从而判断通风机和制动电阻通风系统匹配的合理性和电阻带工作的可靠性,对制动电阻优化设计具有一定的指导意义。

    With quantitative calculation of ventilation and temperature-rise for locomotive brake resistance , this paper estimates the rationality of matching of ventilator and ventilation system of locomotive brake resistance , and the reliability of brake resistance ribbon , to optimize the design of locomotive brake resistance .

  18. 轻微型汽车制动蹄电阻凸焊工艺与设备

    The Projection Welding Equipment And Process For Brake of Mini-Automobile

  19. 本文概要介绍了8G型电力机车的主电路和辅助电路,其主要特点是:主电路采用分裂桥臂交叉供电的双拍整流电路;电气制动为两级电阻制动;

    A general introduction to the power and auxiliary circuits of 8G electric locomotive is given whose characteristics are as follows , the power circuit uses single phase bridge circuit crossly fed by split type bridge arms ;

  20. 变频器制动单元和制动电阻的计算

    Calculation of Inverter Braking Unit / Braking Resistor

  21. 传统的电梯通常将电梯制动能量通过能耗电阻消耗,造成大量能量的浪费。

    The energy released in traditional elevators is usually consumed by high power resistors , which results in a huge waste .

  22. 异步电机阻容制动中电容和电阻元件的选择三相异步电动机阻容制动瞬态过程仿真研究

    Selection of the Resistor and Capacitor for Dynamic Braking of Asychronous Machines Transient Simulation of Induction Motors Under Resistance-Capacitance Braking State

  23. 我部主要生产制动单元、制动电阻、力矩电机控制器、变频器面板延长电缆、转速表、计数器。

    I mainly produce braking unit , braking resistor , torque motor controller , inverter panel extension cables , tachometer , counters .

  24. 详细分析了电阻制动模式转换和电阻制动扩展的控制过程以及制动保护功能。

    Detailed analyses are made on the control process of mode transform and extension of rheostatic braking , as well as the braking protective performance .

  25. 本文说明通用变频器的制动功能,以及制动电阻的作用和选择方法。

    This paper explains the braking function of the general inverter and the effect and selection method of the braking resistance .

  26. 结合城轨车辆主电路的工作原理,给出了整个电传动系统能量的流向、再生制动能量的计算以及再生制动吸收电阻的计算方法。

    Combination of the principle of transit vehicle main circuit , the energy flowing of electrical drive system , the calculation of regenerative braking energy and the calculation of regenerative braking resistor are given .

  27. 为从事三相感应电动机阻容制动装置的设计者选择激磁电容和制动电阻提供一种行之有效的方法。

    An effective mean of selection of the exciting capacitance and braking resistance was offered for the designer of the brake apparatus .

  28. 研究了涡轮分子泵电源制动单元的设计、制动功率和制动电阻的计算方法。为涡轮分子泵选用理想制动电阻提供依据。

    This article deals with the design of the braking unit of the power supply of TMPs and the calculation method of their braking power and braking resistance , providing the basis for choosing ideal braking resistance of TMPs .

  29. 摘要在地面电阻吸收装置工作的有效区段内,根据列车的电制动特性和供电臂内列车状态的不同,合理地确定制动电阻的技术参数。

    Within the effective working section of ground absorption equipment , the technical parameters of braking resistance is rationally defined according to train electric braking characteristics and train status in the feeding section .

  30. 非摩擦制动技术作为解决该问题的一种关键技术得到了广泛运用,如目前在装有电机的机车或动车上广泛应用了再生制动和电阻制动。

    Non-friction braking technology as a key solution to the problem has been widely used , such as the regenerative braking and resistor braking are wildly used in power trucks recently .