Theoretical and Experimental Analysis of Electromagnetic Variable Valve Timing Control Systems for Improvement of Spark Ignition Engine Performance

M. Elkady, A. Elmarakbi, D. Knapton, M. Saleh, M. Abdelhameed, A. Bawady
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引用次数: 3

Abstract

The objective of this paper is to meet the requirements of higher torque values at all engine speeds. This can be achieved by varying the valve timing automatically using a new variable valve timing system (VVT), which gives continuously variable valve actuation at all engine speeds. A model engine is designed using dimensional analysis methods and then implemented to verify the proposed control system. Moreover, microcontroller and computeraided control systems are constructed and used to modify the variable valve timing control in the laboratory. In this paper, a mathematical model of variable valve timing is developed to obtain the best volumetric efficiency with optimum valve timing at different engine speeds. From this model, the look-up table is created at all ranges of the engine speed. A single cylinder engine is used to estimate engine performance characteristics for conventional camshaft. In addition, a model engine is designed and constructed to apply the Variable Valve Timing control system. The investigations show that the system is flexible throughout the entire range of operation speeds and is able to alter valve timing concerning both valve opening and closing. The ability of valve opening and closing can be realized with rates higher than these of the conventional timing mechanisms.
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电磁可变气门正时控制系统提高火花点火发动机性能的理论与实验分析
本文的目标是在所有发动机转速下满足更高扭矩值的要求。这可以通过使用一种新的可变气门正时系统(VVT)自动改变气门正时来实现,该系统可以在所有发动机转速下实现连续可变气门驱动。利用量纲分析方法设计了发动机模型,并对所提出的控制系统进行了验证。此外,构建了微控制器和计算机辅助控制系统,并在实验室中对可变气门正时控制进行了修改。本文建立了可变配气正时的数学模型,以在不同发动机转速下获得最佳配气正时的最佳容积效率。从这个模型,查找表是创建在所有范围的发动机转速。以单缸发动机为研究对象,对传统凸轮轴发动机的性能特性进行了评估。此外,还设计并构造了应用可变配气正时控制系统的发动机模型。调查表明,该系统在整个操作速度范围内都是灵活的,并且能够改变阀门开启和关闭的时间。与传统的定时机构相比,该机构能够以更高的速度实现阀门的开启和关闭。
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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