三相V／V接线牵引变压器负序电流分析

简述了三相V／V接线牵引变压器的结构特征，应用负序电流的一般表达式推导出V／V接线牵引变压器的负序电流，用曲线形式描述了高压侧电流不平衡度的变化规律，并对负序电流引起的不平衡问题进行分析。     

浅析牵引变电所接地系统存在的安全隐患

介绍了牵引变电所接地系统的相关标准，分析了长期以来在施工与运营中被忽视的接地问题及存在的安全隐患，并提出了相应建议。     

客运专线牵引变电所换相联接的分析研究

研究目的：电气化铁道是单相移动牵引负荷，会造成电力系统三相负荷的不平衡，对不平衡产生的负序电流问题，需探讨减小负序电流的措施，尽量减小牵引负荷对电力系统的负序影响。研究结论：电气化铁道牵引变电所普遍采用换相联接的供电方式——轮换接人电力系统中的不同相。本文对电气化铁道牵引变电所采用单相结线、单相V，v结线、三相V，v结线、三相YN，d11结线、三相一两相平衡结线、三相V，X结线等牵引变压器的端子标志及联接进行了论述和总结，对牵引变电所采用各种牵引变压器的换相联接方式进行了分析研究，提出了客运专线采用AT供电方式时，单相或单相V，x结线的变压器端子标志、联接方案及牵引变电所换相联接的推荐方案。采用该方案可以简化牵引变电所牵引变压器一次侧高压线路的接线，避免高压侧线路出现交叉连接，同时简化了牵引变电所的平面布置，节约了投资。     

京沪线南翔牵引变电所有源无源混合补偿方案

介绍了采用低压侧两相式有源与无源混合补偿方案，可以有效降低补偿装置的补偿容量，减小补偿装置的体积，并将该方案实际应用于工程实践，仿真结果验证了补偿方案的正确性与有效性，该装置已投入运行，为新补偿方案在国内推广应用奠定了基础。     

重载铁路牵引供电方案与接触网载流能力的分析

针对重载铁路以及交流传动机车的特点,对新建重载铁路牵引供电方案与接触网载流能力的关系进行了细致的分析,逐步深入的介绍了重载铁路牵引供电方案设计的几个关键步骤,以及详细的计算方法,并提出了设计中应注意的问题。     

HXD2型大功率交流传动货运电力机车牵引电传动系统

介绍HXD2型大功率交流传动货运电力机车牵引电传动系统的电气原理、技术参数、性能特点和结构组成,对牵引电传动系统的各关键部件和装置组成进行了详细的功能描述。     

牵引电机外锥传动转轴机械加工工艺优化

文章分析牵引电机转轴采用传统多机床加工工艺存在的不足,详细介绍改进工艺手段和工艺方法、优化工艺参数等,极大地提高了转轴的加工质量和生产效率。     

牵引模式对C0-C0架悬式机车粘着性能的影响

分析了牵引模式对C0-C0架悬式机车粘着性能的影响.通过对牵引装置不同布置方式进行比较,指出机车的轴重转移量以车体中央截面成对称分布,对应轮对上的粘着质量利用率之和为定值;并提出牵引点高度对机车粘着性能影响较大,而牵引装置布置方式对其影响较小,机车设计时需根据悬挂特性选择合适的牵引点高度.     

Dynamics of railway wagons subjected to braking torques on defective tracks

It is well known that track defects cause profound effects to the dynamics of railway wagons; normally such problems are examined for cases of wagons running at a constant speed. Brake/traction torques affect the speed profile due to the wheel–rail contact characteristics but most of the wagon–track interaction models do not explicitly consider them in simulation. The authors have recently published a model for the dynamics of wagons subject to braking/traction torques on a perfect track by explicitly considering the pitch degree of freedom for wheelsets. The model is extended for cases of lateral and vertical track geometry defects and worn railhead and wheel profiles. This paper presents the results of the analyses carried out using the model extended to the dynamics of wagons containing less ideal wheel profiles running on tracks with geometry defects and worn rails.     

A novel fuzzy logic correctional algorithm for traction control systems on uneven low-friction road conditions

The traction control system (TCS) might prevent excessive skid of the driving wheels so as to enhance the driving performance and direction stability of the vehicle. But if driven on an uneven low-friction road, the vehicle body often vibrates severely due to the drastic fluctuations of driving wheels, and then the vehicle comfort might be reduced greatly. The vibrations could be hardly removed with traditional drive-slip control logic of the TCS. In this paper, a novel fuzzy logic controller has been brought forward, in which the vibration signals of the driving wheels are adopted as new controlled variables, and then the engine torque and the active brake pressure might be coordinately re-adjusted besides the basic logic of a traditional TCS. In the proposed controller, an adjustable engine torque and pressure compensation loop are adopted to constrain the drastic vehicle vibration. Thus, the wheel driving slips and the vibration degrees might be adjusted synchronously and effectively. The simulation results and the real vehicle tests validated that the proposed algorithm is effective and adaptable for a complicated uneven low-friction road.