振动和排放量化在关键驱动周期使用汽缸停用

T. Reinhart, A. Matheaus, C. Sharp, Bryar Peters, M. Pieczko, J. McCarthy
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引用次数: 2

摘要

在低负荷运行期间,停用汽缸可以提供更高等级的热量,改善柴油后处理性能,同时节省燃料和二氧化碳。本文在一个测功机试验单元中对发动机和后处理性能以及发动机振动进行了8个驱动循环的评估。8个驾驶循环包括重型联邦测试协议、低负荷循环、奥兰治县交通管理局巴士循环、纽约巴士循环、空气资源委员会循环和部分55英里/小时的巡航循环。结果表明,随着线性和扭转振动的增加,尾气NOx和CO2的减少可以量化NVH。使用常规和紧密耦合的后处理系统对排放结果进行了量化。CDA过程中发动机的线性振动与正常工作基本一致;因此,消除NVH作为实施的障碍。在CDA发动机上添加低氮氧化物后处理系统显示,排放水平符合拟议的未来法规。
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Vibration and emissions quantification over key drive cycles using cylinder deactivation
Cylinder deactivation has been shown to provide higher grade heat to improve diesel aftertreatment performance during low load operation while providing a fuel and CO2 savings. This paper evaluates engine and aftertreatment performance along with engine vibration over eight drive cycles in a dynamometer test cell. The eight drive cycles include the heavy-duty federal test protocol, low load cycle, Orange County Transit Authority bus cycle, New York bus cycle, Air Resource Board cycle and a portion of the 55-mph cruise cycle. Results show the tailpipe NOx and CO2 reduction along with both linear and torsional vibration to quantify NVH. The emission results were quantified using both conventional and close-coupled aftertreatment systems. The linear vibration from the engine during CDA was generally consistent with normal operation; thus, removing NVH as a barrier for implementation. Adding a low NOx aftertreatment system to the CDA engine showed emission levels within proposed future regulations.
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来源期刊
International Journal of Powertrains
International Journal of Powertrains Engineering-Automotive Engineering
CiteScore
1.20
自引率
0.00%
发文量
25
期刊介绍: IJPT addresses novel scientific/technological results contributing to advancing powertrain technology, from components/subsystems to system integration/controls. Focus is primarily but not exclusively on ground vehicle applications. IJPT''s perspective is largely inspired by the fact that many innovations in powertrain advancement are only possible due to synergies between mechanical design, mechanisms, mechatronics, controls, networking system integration, etc. The science behind these is characterised by physical phenomena across the range of physics (multiphysics) and scale of motion (multiscale) governing the behaviour of components/subsystems.
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