Abstract

Numărul, Secţia, Construcţii DE Maşini
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引用次数: 0

Abstract

Strict pollution norms make car’s manufacturers to promote electrical and hybrid vehicles (EVs and HEVs). Recuperation system that can capture about 8-25% of the energy is represented by the regenerative brakes, it converts losses of kinetic energy of the car during braking in form of heat to electrical or chemical energy. Regenerative brakes can provide a good increase in car’s autonomy, especially in city driving cycles with high frequency of braking. Also, they reduce friction brakes wear and offer more precisely control of wheel braking torque. A survey in this paper presents basics, uses, types and braking strategies for existing regenerative braking systems with the purpose to identify and detail their limitations. Identifying key factors that have influence on system efficiency allows to elaborate optimizing techniques, strategies and algorithms, applied to existing systems in order to develop future concepts that will overcome current limitations.
摘要
严格的污染标准促使汽车制造商推广电动和混合动力汽车(ev和hev)。再生制动系统可以捕获约8-25%的能量,它将汽车在制动过程中损失的动能以热能的形式转化为电能或化学能。再生制动可以很好地提高汽车的自主性,特别是在制动频率较高的城市行驶工况中。此外,他们减少摩擦制动器磨损和提供更精确的控制车轮制动扭矩。一项调查在本文提出的基础,用途,类型和制动策略,现有再生制动系统的目的是确定和详细说明其局限性。确定影响系统效率的关键因素,可以详细阐述优化技术、策略和算法,应用于现有系统,以开发克服当前限制的未来概念。
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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