城市轨道交通地下线工程条件对振动环境影响的研究分析

本文根据国内城市轨道交通工程环境影响评价中地下线环境振动影响预测和环境保护竣工验收监测结果，统计分析了地铁运营时产生的环境振动随敏感点与线路的距离、列车运行速度等变化情况，并根据环境振动影响范围提出了满足环境振动标准的控制距离。     

城市轨道交通车载列车自动防护设备仿真检测平台研究

仿真测试是开展城市轨道交通信号系统相关技术研究的一种有效方法。利用商业虚拟仪器开发平台LabVIEW,讨论了车载ATP(列车自动防护)设备仿真检测系统研制的技术和方法。实践证明,该车载ATP设备仿真检测平台具有高效、灵活、低成本的特点。     

直线电机在城市轨道交通中的优势及应用

直线电机轮轨交通系统因其工程造价低、线路适应性强等优势，被认为是资源节约型城市轨道交通先进模式。分析了日本、加拿大等直线电机地铁车辆的转向架、牵引和制动等技术的特点和性能，探讨了直线电机在城市轨道交通应用中的经济性和适用性。     

城市轨道交通 动车调试的项目管理

动车调试在城市轨道交通项目建设期和运营期之间起到承上启下的软着陆作用，为城市轨道交通系统的快速有序建成和投入运营搭建了良好的平台。以北京市实施完成的动车调试项目为对象，介绍动车调试项目管理模式的建立、实施过程的管理、管理效果检验等，动车调试项目管理技术在北京市城市轨道交通领域得到成功应用。     

关于光催化涂料及其在站屋和客运列车保洁上的应用探讨

光催化是指一种受光能（一般波长小于387nm的紫外线）激发后产生氧化还原反应的现象。由于光催化可以将有机污染物降解为无机小分子，以及会在光催化涂料表面膜产生超亲水性现象，使得它的表面具有防污自清洁性，在固体表面保洁上具有应用价值。本文在阐述光催化机理以及光催化涂料发展现状的基础上对它在站屋和客运列车保洁上的应用进行了探讨，并对应用中可能出现的问题进行了分析。     

关于长沙市轨道交通线网规划车辆选型的研究

介绍长沙市轨道交通线网规划车辆选型的研究过程,主要以现行规范、标准为依据,以客流预测为基地,以运能储备率为评价标准。简化了以往车辆选型过多纠结车辆内部技术参数的问题,方法简单清晰。     

Simulation of dynamic interaction between train and railway turnout

Dynamic train–track interaction is more complex in railway turnouts (switches and crossings) than that in ordinary tangent or curved tracks. Multiple contacts between wheel and rail are common, and severe impact loads with broad frequency contents are induced, when nominal wheel–rail contact conditions are disturbed because of the continuous variation in rail profiles and the discontinuities in the crossing panel. The absence of transition curves at the entry and exit of the turnout, and the cant deficiency, leads to large wheel–rail contact forces and passenger discomfort when the train is switching into the turnout track. Two alternative multibody system (MBS) models of dynamic interaction between train and a standard turnout design are developed. The first model is derived using a commercial MBS software. The second model is based on a multibody dynamics formulation, which may account for the structural flexibility of train and track components (based on finite element models and coordinate reduction methods). The variation in rail profile is accounted for by sampling the cross-section of each rail at several positions along the turnout. Contact between the back of the wheel flange and the check rail, when the wheelset is steered through the crossing, is considered. Good agreement in results from the two models is observed when the track model is taken as rigid.     

城轨交通车站换乘运营安全研究

换乘站是城市轨道交通系统中的关键网络节点，设备设施故障、客流拥堵、运营秩序的紊乱、突发事件等方面都会给车站运营安全带来不利影响。文章分析了车站换乘方式的安全风险要素，着重从车站客流与设施能力动态匹配的角度出发，研究了车站换乘方案分析方法，提出了基于流量平衡原理的换乘设施上的客流动态推算方法，利用该方法，结合实例进行了该车站换乘方案的安全分析与计算，并进一步分析了解决途径。     

城市轨道交通交直流一体化电源成套装置资源共享可行性分析

对地铁车站低压配电EPS(应急照明电源装置)设计及供电系统交直流操作电源设计方案进行了总结。经过对现有EPS与变电所交直流操作电源合并及分开设置方案进行经济技术性比较,综合考虑可靠性、运营管理便利性、系统综合维护成本后,推荐EPS与变电所操作电源分开设置方案。     

The dynamic response of rail support

This research reviews principles behind the dynamic response of rail supports, and introduces a method of analysis to find the maximum response in a realistic setting. Assuming a time-dependent, moving mass with massive wheels is essential, because the ratio of the moving mass to the rail mass is significant. However, the dynamic response of the track is not affected by dynamic properties of the train other than its unsprung mass, because the natural frequencies of the train suspension and track are significantly different. A numerical method is developed to model the dynamic response based on these principles, and applied to the Korean urban transit. The dynamic response includes multiple peaks with a large amplitude range, creating noise while the wheel passes the support. The dynamic impact factor (DIF) for the rail support depends mainly on the stiffness and damping of the rail support. The DIF for the rail moment is below the code value, whether this value is based on numerical analysis or on-site measurements. However, our numerical analysis results in a DIF for support settlement that is greater than the code value, if the damping is less than 3%.