摘要制动频繁是城市轨道交通的特点之一,所以对城市轨道交通车辆制动能量的回收将能够节约大量的能源。轨道交通制动能量回收技术是现今城市轨道交通制动系统研究的重要方向。
本文对城市轨道交通车辆制动能量回收系统进行研究。介绍了城市轨道交通车辆制动系统,详细讲解了城市轨道交通制动技术分类与工作原理。介绍了城市轨道交通目前国内外现有的四种车辆制动能量回收技术,分别分析了四种制动能量回收装置的系统组成、工作原理与应用情况。并对四种制动能量回收装置就经济性、能量回收效果、技术掌握情况、国内应用前景等方面进行了分析对比。根据对比设计出了一种以逆变回馈型的城市轨道交通车辆制动能量回收方案,在车辆再生制动时,将再生能量逆变回馈至交流环网起到节省能源的目的。
方案在保持现有二极管整流器的基础上增设了PWM变流器作为变流装置,在列车再生制动时期PWM变流器起到逆变作用,将牵引网电流逆变回馈至交流环网,同时在高峰时期PWM变流器也能够参与整流、稳定牵引网电压。20285
关键字 城市轨道交通 再生制动 逆变回馈 PWM变流器
毕业论文设计说明书(论文)外文摘要
Title Research On The Regenerative Braking Energy Recovery System Of Urban Rail Transit Train
Abstract
Frequent braking is one of the characteristics of urban rail transit, so the urban rail transit vehicle braking energy recovery will save a lot of energy. Rail brake energy recovery technology is an important research direction of urban rail transportation braking system.
In this paper, research the urban rail transit vehicles energy of brake recovery system. Describes the urban rail transit vehicles brake system, explained in detail the classification of urban rail transit braking technology and how it works. Describes the urban rail transit vehicles currently available in four brake energy recovery technology at home and abroad, were analyzed in four brake energy recovery system, working principle and application. And four kinds of brake energy recovery on the economy, energy recovery, grasp the situation of technology, prospects and other aspects of the country were analyzed and compared. According to a comparison designed to urban rail transit vehicles feedback type inverter braking energy recovery scheme , when the vehicle regenerative braking , regenerative energy back to the AC inverter rings serve the purpose of saving energy.
Program to maintain the existing diode rectifier based on the creation of the PWM converter as a deflector .It played the role of inverters in trains during regenerative braking. Meanwhile during peak periods PWM converter can participate in rectified voltage stability of traction network.
Key words Urban Mass Transit Regenerative braking Energy feedback PWM converter
目 次
1 绪论 1
1.1 研究背景和意义 1
1.2 国内外研究现状 2
1.3 本文研究的主要内容 4
1.4 技术路线和研究方法 5
2 轨道交通制动系统分析 7
2.1 闸瓦制动 7
2.2 磁轨制动 8
2.3 轨道涡流制动 9
2.4 旋转涡流制动 10
2.5 电阻制动 11
2.6 再生制动 11
2.2 本章小结 12
3 城市轨道交通车辆制动能量回收分析 13
3.1 制动能量回收原理 13 PWM变流器轨道交通车辆制动能量回收技术研究:http://www.youerw.com/zidonghua/lunwen_12007.html