使用替代燃料的柴油发动机中的米勒循环和内部 EGR

Friedemar Knost, Christian Beidl
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引用次数: 0

摘要

内燃机和动力总成系统研究所的单缸研究发动机(SCRE)配备了可变气门机构,可在常规进气门升程和提前进气门关闭(米勒)之间切换。在排气侧,每个气门上的二级排气气门升程(SEVL)都可以调节背压,从而实现内部 EGR。在与替代燃料结合使用时,即使替代燃料与 HVO 一样具有滴入功能,其特性也会有所不同,并可能影响排放和效率表现。本文的研究重点是再生型滴入式燃料(HVO)、化石燃料(B7)和含氧燃料(OME),这些燃料需要在发动机控制单元中进行调整,但可提供更多的排放潜力。通过调试双级增压系统,可以在米勒模式下实现与正常气门升程相比的空气质量完全均衡。这样就可以对不同边界条件下的燃料行为进行全面分析。除增压压力外,还改变了废气压力和发动机转速,并对排放和效率进行了分析。在排放和效率方面,对 SEVL 进行了改变和研究。为了进行评估,根据气缸压力数据进行了燃烧分析,以找出产生相应效果的原因。其中一个预期效果是,在米勒模式下,由于有效压缩率降低,相同空气质量下的氮氧化物减少,但由于持续膨胀,效率并没有显著降低。在研究中,这种效果非常明显,因此具有减少氮氧化物排放的巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Miller Cycle and Internal EGR in Diesel Engines Using Alternative Fuels
The Single Cylinder Research Engine (SCRE) at the Institute of Internal Combustion Engines and Powertrain Systems is equipped with a variable valve train that allows to switch between regular intake valve lift and early intake valve closing (Miller). On the exhaust side, a secondary exhaust valve lift (SEVL) on each valve is possible with adjustable back pressure and thus the possibility of realizing internal EGR. In combination with alternative fuels, even if they are Drop-In capable as HVO, properties differ and can influence the emission and efficiency behavior. The investigations of this paper are focusing on regenerative Drop-In fuel (HVO), fossil fuel (B7), and an oxygenate (OME), that needs adaptions at the engine control unit, but offers further emission potential. By commissioning a 2-stage boost system, it is possible to fully equalize the air mass in Miller mode compared to the normal valve lift. This enables a comprehensive analysis of the behavior of the fuels under different boundary conditions. In addition to the boost pressure, the exhaust gas pressure and engine speed are varied and analyzed with regards to emissions and efficiency. The SEVL is varied and investigated in terms of emission and efficiency behavior. For the evaluation, a combustion analysis is carried out and analyzed based on cylinder pressure data to work out the causes of the respective effects. One expected effect is a NOx reduction in Miller mode with the same air mass due to reduced effective compression, without significant efficiency losses due to the constant expansion. In the investigations this effect is clearly visible and therefore represents great potential for reducing NOx emissions.
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