NVO策略下HCCI汽油机缸内残余废气率估计

为满足HCCI汽油机对缸内废气率的迅速感知、精确控制燃烧相位的要求,提出了一种残余废气率建模思路:建立气体在排气道和排气管中流动的散热模型,把排气流经气门作为绝热膨胀过程,用排气温度估计排气门关闭时刻缸内温度,计算出缸内废气率;同时为了满足瞬态工况控制要求,用一阶惯性环节来修正热电偶测温的延迟问题,并根据不同工况修正排气道壁温,有效提高了模型的计算精度.经验证,该模型的计算结果与GT仿真结果的相对误差在4%,以内.

Negative Valve Overlap Mode of HCCI Operation Using Gasoline and Diesel Blended Fuels

The negative valve overlap (NVO) strategy of HCCI operation was experimentally investigated on a gasoline HCCI engine operated with variable valve timing in association with the addition of diesel fuel. The experimental results show that, by using gasoline and diesel blended fuels, the required NVO interval for suitable HCCI combustion under a given engine speed and a moderate compression ratio condition could be reduced, and the HCCI combustion region was extended remarkably without substantial increase in NOx emissions under a given inlet and exhaust valve timing due to the improvement of charge ignitability. In addition, the possible scale of NVO was extended. A substantial increase in the lean limit of excess air ratio and the upper limit of load range can be achieved because of higher volumetric efficiency, resulting from the decrease in the required NVO and the presence of less residual gases in cylinder.

负阀重叠早喷模式HCCI燃烧数学模型与计算分析

针对早喷模式中的排气上止点燃油喷射(ETCI)模式,综合广安博之模型、Bai模型的优点加以改进,并将空间均质燃烧与油膜蒸发燃烧相耦合,建立了一种新型的基于喷雾、燃油附壁、油膜蒸发、燃烧等一系列过程适用于缸内早喷模式的数学模型。利用该模型对135单缸柴油机ETCI燃烧模式进行校核计算,并通过试验验证进一步对燃烧过程中的工况参数及调节参数进行了研究。研究结果表明:在ETCI模式下,存在部分油膜附壁,油膜的蒸发主要与缸内的气体温度与壁温有关,且存在明显的两阶段加热过程。累积放热率与排气门关闭时刻和壁温基本呈线性关系,排气门关闭时刻提前10°CA,累积放热率上升约6%;壁温升高50K,累积放热率上升4%。增压压力升高,累积放热率降低,增压压力越大,累积放热率降低的幅度越小。

负阀重叠的双缸直喷汽油机HCCI燃烧控制

在一台双缸缸内直喷汽油机（GDI）上，采用负阀重叠（NVO）的配气相位和两阶段燃油喷射技术来控制缸内混合气的形成和燃烧，实现了高效低污染的汽油均质混合气压燃（HCCI）燃烧模式。在转速为800～2200r／min、负荷（平均指示压力）为0．1～0.53MPa的HCCI工况平面内，指示油耗在较宽的范围内低于240g·kW^-1·h^-1，NOx排放（体积分数）低于4×10^-5，无碳烟排放。在HCCI运行范围内研究了不同喷油策略对HCCI燃烧特性的影响。结果表明，适当的NVO和两阶段缸内直喷可以有效地降低HCCI燃烧循环波动，控制着火始点，燃烧速率以及拓宽HCCI运行范围。