Research on the Integrated Braking Energy Recovery Strategy Based on Super-Capacitor Energy Storage

机译：基于超级电容器储能的综合制动能量回收策略研究

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Most of braking energy which made by high-speed train in braking process is recovered by energy consumption brake or feedback into power networks currently. Energy consumption brake would lead to energy waste, and feedback into power networks may cause harmonic pollution. The braking energy recovery system based on super-capacitor energy storage can recover the braking energy in braking process and release it in starting or accelerating. However, the system have some shortcomings, such as the large energy storage capacity configuration and high expensive. In the paper, an integrated braking energy recovery method and an optimal configuration method were proposed which can solve above problems, the DC/DC converter and the coordinated control strategy was designed. The correctness and validity of the proposed method were verified by simulation and experiments on the Shanghai 1.5km Maglev Test Line.

机译：目前，高速列车在制动过程中产生的大部分制动能量都通过能耗制动或反馈到电网中来回收。能耗制动会导致能量浪费，并且进入电网的反馈可能会导致谐波污染。基于超级电容器能量存储的制动能量回收系统可以在制动过程中回收制动能量，并在启动或加速时将其释放。然而，该系统具有一些缺点，例如，大的能量存储容量配置和高昂的价格。针对上述问题，本文提出了一种综合的制动能量回收方法和一种最优的配置方法，设计了DC / DC变换器和协调控制策略。通过上海1.5公里磁悬浮试验线的仿真和实验验证了该方法的正确性和有效性。

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《International Conference on Smart Grid and Electrical Automation》|2017年|175-178|共4页
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Tang Lianfu; Wu Lixin;
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Brakes; Voltage control; DC-DC power converters; Resistance; Supercapacitors;

机译：制动器;电压控制; DC-DC电源转换器;电阻;超级电容器;

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Research on the Integrated Braking Energy Recovery Strategy Based on Super-Capacitor Energy Storage

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