提出一种新的制动能量再生系统。
A new braking energy regeneration system is proposed in this paper.
第一个问题是无法有效利用制动能量。
弗林的设计抓住了制动能量,并使用它的下一个葫芦。
Flynn's design captures the braking energy and USES it for the next hoist.
制动能量回收是提高串联式混合动力客车经济性的重要手段。
Brake energy regeneration is an important method to improve the economy of the serial hybrid electric bus.
本文针对城市出租车工作情况对制动能量再生系统进行研究。
This paper studied on the Braking Energy Regeneration System according to the Urban taxis'working condition.
提高变向和制动能力的力量,爆发力,速度和灵敏训练方法。
Strength, Power, Speed, and Agility optionsfor improving Directional Change and Cutting.
传统的制动系统是通过把制动能量转化为热能来达到制动的目的。
Traditional braking system can achieve the braking aim by translating braking energy to thermal energy.
在相同的制动强度下制动初速度越大,回收的再生制动能量越多;
With the same braking intensity, the greater the initial braking speed, the more regenerative braking energy recover.
最后,设计了移动质心与直接力复合控制动能弹的制导控制规律。
Finally, a design of the missile guidance control law is arrived at using proportional navigation method.
带有制动能量再生系统汽车的制动过程与传统汽车的制动过程有所不同。
The braking course of a city bus with regenerative braking system is different from that of traditional bus.
目前车辆制动能量回收的方法有液压储能、飞轮储能和电化学储能等等。
Many ways are used to recover the breaking energy, such as the hydraulic way, flywheel and the electrochemical way.
在相同初始车速下平路减速制动,制动强度越小,再生制动能量回收越多。
With the same initial speeds of deceleration, the smaller the braking strength, the more regenerative braking energy recovery.
本文采用超级电容器作为储能装置,提出了一种新型的制动能量回收系统。
A novel breaking energy recovery system, which takes the super capacitor as the energy store device, is presented here.
计算表明,这种分析方法比起以前的静定分析方法所求得的制动能高要大。
The method makes it clear that bigger values of braking-energy height are got than those obtained by applying quiescent state analysis.
本文研究基于超级电容储能方式的城市轨道交通再生制动能量吸收利用技术。
In this paper, an absorbing and utilizing technology for the brake regenerating energy in urban transit based on ultra-capacitors is researched.
目前真对电动车制动能量的回收,一般都是通过连接带动发电机对电池进行充电。
Now really on the electric vehicle braking energy recovery, typically by connecting the drive generators to charge the battery.
详细介绍了平运带式输送机滚筒制动能力的计算方法,分析了计算过程中应注意的问题。
This article introduces the method to compute the braking capability of horizontal belt conveyor's roller in detail and analyses the key problems of the calculation.
汽车液压制动系常见故障现象,包括:制动能力不良、制动失效、制动发咬和制动跑偏。
Automobile hydraulic braking system common faults, including: braking ability, bad brake failure, made brake bite and braking deviation.
给出回收制动能量的方法,并对各方法进行比较分析,得出一种效率较高的能量回收方法。
This article produced the method of recycling the braking energy and comparatived various methods; finally, obtained a higher efficiency energy recycling me.
介绍了公共汽车制动能量再生系统的特点及组成,对控制器的硬件电路及软件进行了设计。
The characteristics and structure of braking energy regenerative system of city bus are introduced, and the hardware circuit of the controller and related software are designed.
给出回收制动能量的方法,并对各方法进行比较分析,得出一种效率较高的能量回收方法。
This article produced the method of recycling the braking energy and comparatived various methods; finally, obtained a higher efficiency energy recycling method.
两者任何工况下都能方便地工作在最佳经济工况,方便地回收车辆制动能量,提高整车效率。
In any working condition, they can easily work at optimal economic routine, recover braking energy and improve the efficiency of the entire vehicle.
采用超级电容器储能的节能系统,能够在电机制动时回收制动能量,从而实现了能量的节约。
Supercapacitor based energy saving system can absorb the braking energy when motor decelerate, which achieve energy saving.
本发明结构简单,能实现制动管路液压力的线控制,并具备电气故障下的机械备份制动能力。
The brake valve is simple in structure, can realize wire control of the brake pipe fluid pressure, and has the capacity of mechanical backup brake under the condition of the electrical fault.
分析了由于制动能回收导致的制动力的重新分配对于车辆性能的影响,以及制动能回收的效果。
How the regenerative braking effecting on the vehicle performance is analyzed and how many percent braking energy can be regenerated is given.
台架试验结果表明,采用所提出的再生制动控制策略比传统控制策略能更有效地回收制动能量。
Test bed is built up and testing results show that power recovered with braking shift rules is more than that recovered with normal braking control rules.
为了提高车辆编组的效率和安全性,需要对防溜器制动力的变化规律及其制动能高作深入的研究。
In order to improve wagons' efficiency and security, profound researches on the regularity and braking-energy height of the anti-running device's movement are required.
为了提高车辆编组的效率和安全性,需要对防溜器制动力的变化规律及其制动能高作深入的研究。
In order to improve wagons' efficiency and security, profound researches on the regularity and braking-energy height of the anti-running device's movement are required.
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