EDLC Hybrid System for Engine Starting and Energy Recovery when Braking Vehicles

2022 IEEE 28th International Symposium for Design and Technology in Electronic Packaging (SIITME) Pub Date : 2022-10-26 DOI:10.1109/SIITME56728.2022.9987902

I. Bacîș, L. Perisoara, Alexandru Vasile

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Abstract

In the current context of reducing pollution through the most economical use of energy in the field of transport, it is necessary to find solutions with high efficiency for the recovery and storage of energy produced by moving vehicles in congested traffic conditions. Motor vehicles equipped with the thermal engines that equip modern cars primarily use a lead-acid battery to start the engine. The battery must provide a current of several hundred Amps for starting. Such batteries require high energy capacities, and their construction uses large amounts of Pb, an extremely polluting material. Also, the use of classic batteries in the automotive industry, in addition to pollution, is not effective either in terms of cost/weight When braking, electric cars generate large currents whose energy cannot be fully accumulated in batteries manufactured on the basis of Pb due to the limiting electrochemical process through which the electric charge accumulates. The modern computers that equip new vehicles have powerful processors that can command and supervise many phenomena on the car. A first step in this direction was made by the introduction of the Start-Stop system, which stops the engine when the vehicle is not moving or goes into the braking stage. When the accelerator pedal is pressed, the engine must start forcefully and at a higher speed than when the engine is running at “idle”. In this case, the starter is operated with a voltage 50% higher than the nominal voltage of the accumulator battery and a current of hundreds of amperes. In this case, a special passive component is used, namely the supercapacitor. A second step in the direction of reducing pollution is the considerable reduction of the battery capacity of Pb batteries, so less polluting, but which can ensure good starting even after a long time. This can be done by connecting a supercapacitor in parallel with a low-capacity Pb-based battery and an electronic control and monitoring system.

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EDLC混合动力系统的发动机启动和制动时的能量回收

在当前交通运输领域通过最经济地利用能源来减少污染的背景下，有必要寻找高效的解决方案来回收和储存拥挤交通条件下移动车辆产生的能量。现代汽车所配备的热动力汽车主要使用铅酸电池来启动发动机。电池起动时必须提供几百安培的电流。这种电池需要很高的能量容量，而且它们的结构使用了大量的铅，这是一种极具污染的材料。此外，在汽车工业中使用传统电池，除了污染外，在成本/重量方面也不有效。在制动时，电动汽车产生大电流，由于电荷积累的电化学过程有限，以Pb为基础制造的电池无法充分积累其能量。配备在新车上的现代计算机具有强大的处理器，可以指挥和监督汽车上的许多现象。在这个方向上迈出的第一步是引入启停系统，该系统在车辆不移动或进入制动阶段时停止发动机。当踩下加速踏板时，发动机必须以比发动机怠速时更高的速度有力地启动。在这种情况下，起动器在比蓄电池标称电压高50%的电压下运行，电流为数百安培。在这种情况下，使用一种特殊的无源元件，即超级电容器。减少污染方向的第二步是Pb电池的电池容量大幅减少，因此污染较少，但即使在很长一段时间后也可以保证良好的启动。这可以通过将一个超级电容器与一个低容量的铅基电池和一个电子控制和监控系统并联来实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE 28th International Symposium for Design and Technology in Electronic Packaging (SIITME)

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