电力牵引工频高压电磁场对人体视—运动反应时的影响

通过对我国电力牵引达２２年区段的２７．５ｋＶ工频电场强度为１．７５－３．４６ｋＶ／ｍ，磁感应强度为０．６０－１．７５ｍＴ，人体感应电流为１０．０８－５８．４０μＡ环境下作业的１３５９名工人和无电磁场接触史的３７５名工人的视－运动反应时值进行的测验和分析。结果表明两组无明显差异。引起视－运动反应时值的延长。结果表明两组无明显差异，引起视－运动反应时值的延长，机体协调功能减退的主要原因是年龄因素的增长     

国内外机车柴油机排放污染物的法规制定进展与现状

系统介绍国内外机车柴油机排放污染物限值和测定方法法规制定的进展与现状、重点介绍了国际铁路联盟(UIC)、欧洲共同体(ECE)、经互会(CMEA)、国际标准组织(ISO)、美国、日本、捷克、前苏联及中国机车柴油机排放污染物限值与测定方法法规制定的有关情况.     

铁路机车配重精准调整方法研究

由于传统机车配重调整方法用的配重铁重量只能估算、生产周期长、重量比较大,不仅不精确、灵活性差,而且调整过程非常繁琐.针对这种现状,提出一种铁路机车配重精准调整方法.详细介绍配重精准调整流程、配重理论重量计算方法、配重装置结构、单元砝码数量确定方法.采用配重精准调整方法可以灵活、快速、准确地调整机车配重.     

ERTG能量回收节能及全电动转过场系统的应用

为了提高使用岸电的场桥(ERTG)的工作效率,研制了ERTG的能量回收系统和全电动转场系统。论述了能量回收节能及全电动转过场系统的原理、工况及操作规程。该系统取消了柴油发电机组,转过场时实现无间断电源及全电动操作,同时该系统能够吸收部分势能,起到节能作用,实现了ERTG全电动作业及真正的零排放。     

并联式混合动力环卫车电控系统可靠性研究

由于混合动力汽车添加了驱动电机、动力电池组、电机控制器、电池管理器、整车控制器等模块,使其电控系统更加复杂,电磁环境也更加苛刻,传统汽车电控系统设计难以保证其可靠性要求。本文以SX5256DH434PHEV型并联式混合动力环卫车为研究对象,应用分布式层次化控制策略,通过分析电控系统可靠性的影响因素(振动、电磁干扰、散热、防水),提出了并联式混合动力环卫车电控系统控制器与线束的布置方案;可靠性试验结果反映了电控系统设计的可行性和布置方案的合理性。     

电动汽车电排用浸塑聚氯乙烯老化研究及寿命预测

通过热老化试验,研究老化温度与老化时间对电动汽车电排用浸塑聚氯乙烯(DPVC)断裂伸长率、质量变化率和绝缘电阻的影响.通过试验数据分析和拟合,建立不同温度下老化时间和断裂伸长率、质量变化率之间的函数关系;结果表明,绝缘电阻失效时间与质量损失降至50％时的临界时间较为接近,在实际使用过程中,可以DPVC质量损失作为其绝缘...     

Trends in life cycle greenhouse gas emissions of future light duty electric vehicles

The majority of previous studies examining life cycle greenhouse gas (LCGHG) emissions of battery electric vehicles (BEVs) have focused on efficiency-oriented vehicle designs with limited battery capacities. However, two dominant trends in the US BEV market make these studies increasingly obsolete: sales show significant increases in battery capacity and attendant range and are increasingly dominated by large luxury or high-performance vehicles. In addition, an era of new use and ownership models may mean significant changes to vehicle utilization, and the carbon intensity of electricity is expected to decrease. Thus, the question is whether these trends significantly alter our expectations of future BEV LCGHG emissions.To answer this question, three archetypal vehicle designs for the year 2025 along with scenarios for increased range and different use models are simulated in an LCGHG model: an efficiency-oriented compact vehicle; a high performance luxury sedan; and a luxury sport utility vehicle. While production emissions are less than 10% of LCGHG emissions for today’s gasoline vehicles, they account for about 40% for a BEV, and as much as two-thirds of a future BEV operated on a primarily renewable grid. Larger battery systems and low utilization do not outweigh expected reductions in emissions from electricity used for vehicle charging. These trends could be exacerbated by increasing BEV market shares for larger vehicles. However, larger battery systems could reduce per-mile emissions of BEVs in high mileage applications, like on-demand ride sharing or shared vehicle fleets, meaning that trends in use patterns may countervail those in BEV design.     

Optimal development of alternative fuel station networks considering node capacity restrictions

A potential solution to reduce greenhouse gas (GHG) emissions in the transport sector is the use of alternative fuel vehicles (AFV). As global GHG emission standards have been in place for passenger cars for several years, infrastructure modelling for new AFV is an established topic. However, as the regulatory focus shifts towards heavy-duty vehicles (HDV), the market diffusion of AFV-HDV will increase as will planning the relevant AFV infrastructure for HDV. Existing modelling approaches need to be adapted, because the energy demand per individual refill increases significantly for HDV and there are regulatory as well as technical limitations for alternative fuel station (AFS) capacities at the same time. While the current research takes capacity restrictions for single stations into account, capacity limits for locations (i.e. nodes) – the places where refuelling stations are built such as highway entries, exits or intersections – are not yet considered. We extend existing models in this respect and introduce an optimal development for AFS considering (station) location capacity restrictions. The proposed method is applied to a case study of a potential fuel cell heavy-duty vehicle AFS network. We find that the location capacity limit has a major impact on the number of stations required, station utilization and station portfolio variety.     

Joint deployment of charging stations and photovoltaic power plants for electric vehicles

The focus of this study is to jointly design charging stations and photovoltaic (PV) power plants with time-dependent charging fee, to improve the management of the coupled transportation and power systems. We first propose an efficient and extended label-setting algorithm to solve the EV joint routing and charging problem that considers recharging amount choices at different stations and loop movement cases. Then, a variational inequality problem is formulated to model the equilibrium of EV traffic on transportation networks, and an optimal power flow model is proposed to model the power network flow with PV power plants and optimally serve the EV charging requirements. Based on the above models for describing system states, we then formulate a model to simultaneously design charging stations, PV plants, and time-dependent charging fee. A surrogate-based optimization (SBO) algorithm is adopted to solve the model. Numerical examples demonstrate that the proposed SBO algorithm performs well. Additionally, important insights concerning the infrastructure design and price management of the coupled transportation and power networks are derived accordingly.     

SS_(4G)型电力机车车轮轮心裂损的检测

根据SS4G型电力机车铸钢车轮轮心和整体辗钢车轮裂损情况,分析裂损原因,介绍目视检查、磁粉探伤、超声波探伤及脉冲涡流探伤的裂损检测方法。结合实际,提出减少轮心裂损发生的措施和出现裂损时的应对方法。