A Low Cost Air Hybrid Concept

Oil & Gas Science and Technology-revue De L Institut Francais Du Petrole Pub Date : 2010-01-01 DOI:10.2516/OGST/2009089

Cho-Yu Lee, Huan Zhao, T. Ma

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引用次数: 10

Abstract

The air hybrid engine absorbs the vehicle kinetic energy during braking, stores it in an air tank in the form of compressed air, and reuses it to propel a vehicle during cruising and acceleration. Capturing, storing and reusing this braking energy to give additional power can therefore improve fuel economy, particularly in cities and urban areas where the traffic conditions involve many stops and starts. In order to reuse the residual kinetic energy, the vehicle operation consists of 3 basic modes, i.e. Compression Mode (CM), Expander Mode (EM) and normal firing mode. Unlike previous works, a low cost air hybrid engine has been proposed and studied. The hybrid engine operation can be realized by means of production technologies, such as VVT and valve deactivation. In this work, systematic investigation has been carried out on the performance of the hybrid engine concept through detailed gas dynamic modelling using Ricardo WAVE software. Valve timing optimization has been done for the more efficient operation of air hybrid operation and obtaining higher braking and motoring mean effective pressure for CM and EM respectively.

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一个低成本的空气混合概念

空气混合动力发动机在制动过程中吸收车辆的动能，以压缩空气的形式储存在空气罐中，并在巡航和加速过程中重新利用它来推动车辆。因此，捕获、储存和再利用这些制动能量来提供额外的动力可以提高燃油经济性，特别是在交通状况涉及多次停车和启动的城市和城市地区。为了重新利用剩余动能，车辆运行包括3种基本模式，即压缩模式(CM)、扩张模式(EM)和正常发射模式。与以往不同的是，本文提出并研究了一种低成本的空气混合动力发动机。混合动力发动机的运行可以通过VVT和气门停用等生产技术来实现。在这项工作中，通过使用Ricardo WAVE软件进行详细的气体动力学建模，对混合动力发动机概念的性能进行了系统的研究。为了提高空气混合动力系统的运行效率，使CM和EM分别获得更高的制动和运动平均有效压力，对气门正时进行了优化。

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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Oil & Gas Science and Technology-revue De L Institut Francais Du Petrole

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