Design, Modeling and Development of a Serial Hybrid Motorcycle with HCCI Engine

Advances in Automobile Engineering Pub Date : 2013-09-04 DOI:10.4172/2167-7670.1000104

Yuh-Yih Wu, Chen Duan, Kai-Xian Hong, Hsien-Chi Tsai, C. Hoff

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引用次数: 3

Abstract

This paper discusses the design, modeling, and development of small motorcycle equipped with a HCCI engine in an series hybrid configuration. A mathematical model was developed using MATLAB/Simulink and used to size the powertrain components and to predict fuel economy. A conventional 125 cc spark ignition engine was modified to run in HCCI combustion mode and integrated into a prototype vehicle. Dual-fuel and external EGR strategies were used to upgrade the engine speed and torque capabilities of the engine to meet the requirements of the powertrain. An electrical generator, hub-motor, battery pack and other power electronics devices were used to form the electrical system for the vehicle. The advantages of the proposed design compared to the original motorcycle with SI engine and CVT transmission are: 1) a reduction in noxious emissions due to the HCCI combustion, and 2) higher fuel economy in city driving because of the HCCI engine and series hybrid powertrain. Fuel economy was measured by driving the motorcycle on a chassis dynamometer using a sequence of ECE-40 driving cycles. The overall fuel economy was measured to be 73.7km/L which represents a 139.3% increase in fuel economy over the baseline vehicle.

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HCCI发动机串联混合动力摩托车的设计、建模与开发

本文讨论了一种串联混合动力配置的HCCI发动机小型摩托车的设计、建模和开发。利用MATLAB/Simulink建立了数学模型，用于确定动力总成部件的尺寸和预测燃油经济性。将传统的125cc火花点火发动机改装为HCCI燃烧模式，并集成到原型车上。采用双燃料和外置EGR策略，提升发动机转速和扭矩能力，满足动力系统的要求。发电机、轮毂电机、电池组和其他电力电子设备被用来构成车辆的电气系统。与原来的SI发动机和CVT变速器的摩托车相比，该设计的优点是:1)减少了由于HCCI燃烧而产生的有害排放;2)由于HCCI发动机和串联混合动力系统，在城市驾驶中具有更高的燃油经济性。燃油经济性是通过在底盘测功机上使用ECE-40驾驶循环序列来测量的。总体燃油经济性为73.7km/L，与基准车辆相比，燃油经济性提高了139.3%。

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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Advances in Automobile Engineering

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