共查询到15条相似文献,搜索用时 203 毫秒
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为提高研发效率、降低研发成本、缩短产品性能开发周期,本文搭建一种高压共轨单缸试验柴油机,提出一种共轨系统控制技术,为发动机性能开发提供一种高效的试验支撑装置。首先搭建单缸试验柴油机,确定单缸机整体架构、各系统架构及设计参数,根据发动机工况计算轨压设定值,通过轨压传感器采集到轨压实际值,轨压设定值与实际值偏差经过自适应PID调节得到期望供油量,根据油量计量单元特性曲线计算得到油量计量单元占空比。通过实验,分别验证发动机起动状态,建立轨压能力、不同转速段轨压控制稳定性、轨压设定值正向阶跃和负向阶跃时轨压实际值响应性。实验结果表明:轨压在发动机起动时建压速度较快、偏差小;不同转速波动时,轨压瞬态响应速度快,瞬态偏差小,具有较好的控制效果。 相似文献
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柴油机高压共轨系统自适应模糊滑模控制 总被引:1,自引:0,他引:1
基于滑模变结构控制理论和自适应模糊逻辑设计了轨压反馈控制策略,并进行了系统稳定性分析。仿真试验结果表明,该方法具有较高的控制性能指标,动态工况下超调量几乎为0,并且具有良好的响应跟踪特性和理想的抗干扰能力。 相似文献
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Seungwoo Hong Donghyuk Jung Myoungho Sunwoo 《International Journal of Automotive Technology》2018,19(4):585-595
Fuel injection limitation algorithms are widely used to reduce particulate matter (PM) emissions under transient states in diesel engines. However, the limited injection quantity leads to a decrease in the engine torque response under transient states. To overcome this issue, this study proposes an adaptation strategy for exhaust gas recirculation (EGR) and common rail pressure combined with a fuel injection limitation algorithm. The proposed control algorithm consists of three parts: fuel injection limitation, EGR adaptation, and rail pressure adaptation. The fuel injection quantity is limited by adjusting the exhaust burned gas rate, which is predicted based on various intake air states like air mass flow and EGR mass flow. The control algorithm for EGR and rail pressure was designed to manipulate the set-points of the EGR and rail pressure when the fuel injection limitation is activated. The EGR controller decreases the EGR gas flow rate to rapidly supply fresh air under transient states. The rail pressure controller increases the rail pressure set-point to generate a well-mixed air-fuel mixture, resulting in an enhancement in engine torque under transient states. The proposed adaptation strategy was validated through engine experiments. These experiments showed that PM emissions were reduced by up to 11.2 %, and the engine torque was enhanced by 5.4 % under transient states compared to the injection limitation strategy without adaptation. 相似文献
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进行了高压共轨EC U监控单元硬件电路和监控策略的设计与开发,提出了三层监控架构并对其中的问询/应答通信监控策略进行开发。利用 Matlab/Simulink工具对监控策略进行模型搭建与仿真,利用 Real‐Time Workshop工具实现模型到代码的自动生成,运用满足ISO 26262标准的工具链和开发流程对代码进行优化,最后在高压共轨柴油机上进行试验验证。试验结果证明此监控单元能有效检测主CPU 故障并及时作出响应,极大提高了高压共轨系统的稳定性。 相似文献