Energy management of a battery-flywheel storage system used for regenerative braking recuperation of an Electric Vehicle

机译：电动汽车再生制动回收的电池飞轮存储系统的能量管理

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摘要

This article proposes an energy recuperation management of a Hybrid Energy Storage System (HESS) during regenerative braking of an Electric Vehicle. The HESS is composed of a Li-Ion battery, and a high speed Flywheel Energy Storage (FES). At low speed, the integration of a controlled dissipative resistor is used to prevent battery overcurrent and overvoltage. At high speed, Voltage Current Limited Maximum Torque (VCLMT) control method is applied to reach the maximal speed allowed. Sizing of the flywheel and the design of the Permanent magnet synchronous motor (PMSM) control will also be presented. Simulation results show the dynamic behavior of the flywheel according to the PMSM desired control as well as the energy recovery strategy.

机译：本文提出了一种混合动力储能系统（HESS）在电动汽车再生制动期间的能量回收管理。 HESS由锂离子电池和高速飞轮储能（FES）组成。在低速下，集成的耗散电阻器可用于防止电池过电流和过电压。在高速下，将应用电压电流限制最大转矩（VCLMT）控制方法来达到允许的最大速度。还介绍了飞轮的尺寸和永磁同步电动机（PMSM）控制的设计。仿真结果表明，飞轮的动态行为符合PMSM的期望控制以及能量回收策略。

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《Annual Conference of the IEEE Industrial Electronics Society》|2016年|2034-2039|共6页
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Khaled Itani; Alexandre De Bernardinis; Zoubir Khatir; Ahmad Jammal;
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Flywheels; Batteries; Torque; Permanent magnet motors; Iron; Velocity control;

机译：飞轮;电池;扭矩;永磁电动机;铁;速度控制;

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1. Optimization and control of battery-flywheel compound energy storage system during an electric vehicle braking [J] . Wang Wei, Li Yan, Shi Man, Energy . 2021,第Jula1期

机译：电动汽车制动期间电池 - 飞轮复合能量存储系统的优化与控制
2. Comparative analysis of two hybrid energy storage systems used in a two front wheel driven electric vehicle during extreme start-up and regenerative braking operations [J] . Itani Khaled, De Bernardinis Alexandre, Khatir Zoubir, Energy Conversion & Management . 2017,第JULa期

机译：在极端启动和再生制动过程中，两个前轮驱动电动汽车中使用的两个混合动力储能系统的比较分析
3. Recuperation of Regenerative Braking Energy in Electric Rail Transit Systems [J] . Khodaparastan Mahdiyeh, Mohamed Ahmed A., Brandauer Werner IEEE Transactions on Intelligent Transportation Systems . 2019,第8期

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4. Energy management of a battery-flywheel storage system used for regenerative braking recuperation of an Electric Vehicle [C] . Khaled Itani, Alexandre De Bernardinis, Zoubir Khatir, Annual Conference of the IEEE Industrial Electronics Society . 2016

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5. Recuperation of Regenerative Braking Energy in Electric Rail Transit Systems [D] . ?khodaparastan, Mahdiyeh 2020

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7. Research on skid control system of small electric vehicle : (the effect of regenerative brake control on in-wheel small electric vehicle with anti-lock brake system) [O] . Muhammad Izhar Ishak 2013

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8. REGENERATIVE FLYWHEEL ENERGY STORAGE SYSTEM VolumeⅢ: Life-Cycle and Cost-Benefit Analyses of a Battery-Flywheel Electric Car [R] . 1980

机译：再生飞轮能量存储系统第三卷：电池 - 飞轮电动车的寿命周期和成本效益分析

Energy management of a battery-flywheel storage system used for regenerative braking recuperation of an Electric Vehicle

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