基于NVO策略的CAI燃烧循环间变化研究

2010 International Conference on Logistics Engineering and Intelligent Transportation Systems Pub Date : 2010-12-10 DOI:10.1109/LEITS.2010.5665034

Hua Li, Yingnan Guo, P. Cheng, Fafa Liu, E. Jiang

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引用次数: 1

摘要

基于自主开发的电液可变配气机构，采用负配气重叠(NVO)策略实现了自动点火控制。这种VVT系统取代了原来的凸轮轴，安装在一个改进的单缸发动机的头部。研究了不同工况下CAI燃烧的循环间变化规律，并对100个连续循环进行了采样和存储。实验结果表明，在发动机转速和气门事件一定的情况下，随着过剩空气系数的增大，指示平均有效压力(CoVIMEP)变化系数先减小后增大。当过量空气系数在1.1 ~ 1.3之间时，CoVIMEP值最小。发动机转速和气门升程显示了影响CoVIMEP的潜在因素。发动机转速的提高导致了更强烈的混合过程，这在气缸中引入了高强度的湍流，并在压缩冲程结束时提高了装药的均匀性，最终实现了稳定的CAI燃烧。同时，降低气门升程的影响相对较小。因此，IMEP的变化在一定程度上受到抑制。

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Study on Cycle-To-Cycle Variations of CAI Combustion Using NVO Strategy

Based on the application of self-developed electro-hydraulic variable valve train (VVT), Controlled Auto-Ignition（CAI）was achieved with Negative Valve Overlap (NVO) strategy. This VVT system that replaced the original camshaft was mounted on the head of a modified single cylinder engine. The cycle-to-cycle variation of CAI Combustion was investigated under several different operating points with 100 consecutive cycles sampled and stored. The experimental results indicated that as the excess air coefficient increases, with fixed engine speed and valve event, the coefficient of variation of indicated mean effective pressure (CoVIMEP) dropped firstly and then increased. The CoVIMEP had the minimum value when the excess air coefficient ranges from 1.1 to 1.3. The engine speed and the valve lift showed the potential to influence CoVIMEP. Increased engine speed led to a more intense mixing progress, which introduced high intensity turbulence into the cylinder and resulted in a higher level of charge homogeneity at the end of compression stroke, and finally a steady CAI combustion. Meanwhile, decreasing the valve lift had a relatively minor effect. The variation of IMEP was consequently suppressed to some extend.

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来源期刊

2010 International Conference on Logistics Engineering and Intelligent Transportation Systems

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