电源频率对三相交流异步牵引电动机影响的探讨

通过对三相异步牵引电动机的特点,结构,参数的分析,结合异步动机用于机车做为牵引动力的特定工况,提出了在同一转差率下,低频区电动机输出转矩下降,机械特性变软的问题,从理论上分析了问题产生的原因,并针对这两个问题提出了作者的看法。     

汽车ABS滑模变结构控制的分析与仿真

汽车防抱制动系统(ABS)是改善汽车主动安全性的重要装置.本文介绍了滑模变结构控制方法,针对汽车ABS的特点利用此方法设计了控制器,并在MATLAB/Simulink的环境下进行了仿真,给出了仿真结果和评价.     

EQ6110混合动力电动汽车再生制动控制策略研究

分析了电机再生制动对车辆制动性能的影响以及典型城市公交客车运行工况特点，提出了适于EQ6110HEV的再生制动控制策略——低制动强度时优先采用再生制动，高强度时按比例复合再生制动与摩擦制动。仿真计算表明：在各种循环工况下，EQ6110HEV采用这种再生制动控制策略均有较好的节能效果，可降低能耗10％～25％。     

防抱制动系统基于模型的最佳滑移率计算方法

提出了一种基于μ-λ曲线的近似数学模型来实现最佳滑移率的递推最小二乘算法(RLS)。应用累积求和统计控制法(CUSUM)，解决了RLS算法在检测跃变路面时响应滞后的问题。通过计算机仿真，验证了算法在车辆防抱制动系统中的可行性和有效性。     

相继增压系统对改善船用直列八缸发动机性能的试验研究

随着大型柴油发动机经济性和排放要求的不断提升,以及对发动机稳态、瞬态特性要求的不断提高,传统的涡轮增压系统已无法满足船用发动机全工况性能的要求。为了提高产品竞争力和适配性,针对某8缸直列船用柴油发动机开发了带有定压排气管的相继增压系统,并进行了发动机台架试验研究。结果表明：发动机中、低转速时,相继增压系统使发动机比油耗可以下降5%-10%,排气温度降低30%-45%,烟度下降55%-60%；最大扭矩可以提升15.1%-36.4%；发动机最大扭矩转速工况突加突卸响应性提升约28%-29%；相继增压系统中定压排气管的设计使得发动机高工况性能也有所提升,从而实现发动机全工况性能的提升。     

System energy optimisation strategies for metros with regeneration

Energy and environmental sustainability in transportation are becoming ever more important. In Europe, the transportation sector is responsible for about 30% of the final end use of energy. Electrified railway systems play an important role in contributing to the reduction of energy usage and CO₂ emissions compared with other transport modes. For metro-transit systems with frequently motoring and braking trains, the effective use of regenerated braking energy is a significant way to reduce the net energy consumption. Although eco-driving strategies have been studied for some time, a comprehensive understanding of how regeneration affects the overall system energy consumption has not been developed. This paper proposes a multi-train traction power network modelling method to determine the system energy flow of the railway system with regenerating braking trains. The initial results show that minimising traction energy use is not the same as minimising the system energy usage in a metro system. An integrated optimisation method is proposed to solve the system energy-saving problem, which takes train movement and electrical power flow into consideration. The results of a study of the Beijing Yizhuang metro line indicate that optimised operation could reduce the energy consumption at the substations by nearly 38.6% compared to that used with the existing ATO operation.     

Mental models of driving and speed: biases,choices and reality

This paper provides a review of research performed by Svenson with colleagues and others work on mental models and their practical implications. Mental models describe how people perceive and think about the world including covariances and relationships between different variables, such as driving speed and time. Research on mental models has detected the time-saving bias [Svenson, O. (1970). A functional measurement approach to intuitive estimation as exemplified by estimated time savings. Journal of Experimental Psychology, 86, 204–210]. It means that drivers relatively overestimate the time that can be saved by increasing speed from an already high speed, for example, 90–130?km/h, and underestimate the time that can be saved by increasing speed from a low speed, for example, 30–45?km/h. In congruence with this finding, mean speed judgments and perceptions of mean speeds are also biased and higher speeds given too much weight and low speeds too little weight in comparison with objective reality. Replacing or adding a new speedometer in the car showing min per km eliminated or weakened the time-saving bias. Information about braking distances at different speeds did not improve overoptimistic judgments of braking capacity, but information about collision speed with an object suddenly appearing on the road did improve judgments of braking capacity. This is relevant to drivers, politicians and traffic regulators.     

北京新机场线一期8.8m直径隧道盾构选型研究

依托北京新机场线一期工程07标段,从刀盘类型、刀盘驱动设备、刀具型式、刀具布置、渣土改良系统和同步注浆系统等方面对盾构选型进行研究。通过分析工程特点、总结以往工程经验、理论计算等方法得出结论:在全断面砂卵石地层中,辐条式刀盘适应性更佳;先行刀与刮刀组合的破岩方式以及先行刀的高差设置,有利于盾构掘进开挖土体;渣土改良材料注入口布置应充分考虑地质条件。     

对地铁信号系统列车运行速度制约因素的探讨

信号系统是保障地铁运行安全及提高运行效率的重要设备,列车超速防护功能是信号系统一个非常关键的功能。信号系统防护下的列车运行速度由车辆、线路、轨道、限界及信号系统等条件共同决定。由于相关专业对信号系统安全制动模型不了解,在实际工程中易造成"速度浪费"现象。从信号系统安全制动模型的原理出发,对车辆、线路、轨道、限界等专业对列车运行速度的制约因素进行分析,提出建议。     

Modelling,simulation and applications of longitudinal train dynamics

ABSTRACT

Significant developments in longitudinal train simulation and an overview of the approaches to train models and modelling vehicle force inputs are firstly presented. The most important modelling task, that of the wagon connection, consisting of energy absorption devices such as draft gears and buffers, draw gear stiffness, coupler slack and structural stiffness is then presented. Detailed attention is given to the modelling approaches for friction wedge damped and polymer draft gears. A significant issue in longitudinal train dynamics is the modelling and calculation of the input forces – the co-dimensional problem. The need to push traction performances higher has led to research and improvement in the accuracy of traction modelling which is discussed. A co-simulation method that combines longitudinal train simulation, locomotive traction control and locomotive vehicle dynamics is presented. The modelling of other forces, braking propulsion resistance, curve drag and grade forces are also discussed. As extensions to conventional longitudinal train dynamics, lateral forces and coupler impacts are examined in regards to interaction with wagon lateral and vertical dynamics. Various applications of longitudinal train dynamics are then presented. As an alternative to the tradition single wagon mass approach to longitudinal train dynamics, an example incorporating fully detailed wagon dynamics is presented for a crash analysis problem. Further applications of starting traction, air braking, distributed power, energy analysis and tippler operation are also presented.