使用 CDA 和低功率电加热器进行 80 万英里老化后的未来排放情况

Jan Kramer, Michael Rice, Bryan Zavala, Christopher Sharp, James McCarthy, Ben Karrer
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摘要

已确定发动机和后处理解决方案,以满足美国即将出台的重型车辆超低氮氧化物法规。这些标准要求改变当前的传统后处理系统,以应对低排气温度情况,同时延长发动机和后处理系统的使用寿命。之前的研究表明,满足美国环保局和加州空气资源委员会(CARB)的要求是可行的。这项工作包括一台配备气缸停用(CDA)装置的 15L 柴油发动机,以及一套经完全 DAAAC 老化至 800,000 英里的后处理系统。后处理系统包括一个电子加热器(电加热器)、熄火选择性催化还原(LO-SCR)以及一个包含 DPF 和 SCR 的初级后处理系统。电子加热器能够提供高达 10 千瓦的功率,但在本项目中,为了尽可能降低二氧化碳排放量,研究人员将 2.5 千瓦和 5 千瓦的较低功率设置与 CDA 结合使用。测试循环包括重负荷 FPT(热和冷)、低负荷循环、饮料循环和保温运行。这项研究的数据表明,低功率电子加热器的应用可使带有 CDA 和后处理系统的发动机在行驶 80 万英里后,以最低的二氧化碳排放达到超低氮氧化物排放标准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Future Emissions Following 800,000 Mile Aging Using CDA and a Low Power Electric Heater
Engine and aftertreatment solutions have been identified to meet the upcoming ultra-low NOx regulations on heavy duty vehicles in the United States. These standards will require changes to current conventional aftertreatment systems for dealing with low exhaust temperature scenarios while increasing the useful life of the engine and aftertreatment system. Previous studies have shown feasibility of meeting the US EPA and California Air Resource Board (CARB) requirements. This work includes a 15L diesel engine equipped with cylinder deactivation (CDA) and an aftertreatment system that was fully DAAAC aged to 800,000 miles. The aftertreatment system includes an e-heater (electric heater), light-off Selective Catalytic Reduction (LO-SCR) followed by a primary aftertreatment system containing a DPF and SCR. The e-heater was capable of providing up to 10 kW, however for the purpose of this project, lower power settings of 2.5 kW and 5 kW were studied in combination with CDA for lowest possible CO2 emissions. Test cycles included the heavy duty FPT (hot and cold), a low load cycle, a beverage cycle, and a stay hot operation. The data found in this study show how the application of a low power e-heater enables an engine with CDA and an aftertreatment system after 800,000 miles aging to meet ultra-low NOx emissions with minimum CO2 penalty.
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