柴油颗粒过滤器要求欧7技术不断再生重型应用

Athanasios Mamakos, Dominik Rose, Anastasios Melas, Roberto Gioria, Ricardo Suarez-Bertoa, Barouch Giechaskiel
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引用次数: 0

摘要

即将出台的针对重型(HD)车辆的欧7法规要求通过降低适用限值和将最低可检测尺寸从23纳米(SPN23)改为10纳米(SPN10),进一步收紧固体颗粒数(SPN)排放。为了评估连续再生系统所需的颗粒过滤要求,在底盘测力仪上对一辆最新技术的柴油HD卡车进行了测试。研究表明,在实际操作条件下,被动再生会导致当前技术的柴油颗粒过滤器(DPF)在装载烟灰时释放大量SPN10颗粒,甚至超过目前适用的排放限值。在被动再生期间和DPF清理后的实际排放量超过了提议的欧7限制,超过了一个数量级。DPF的原型在清洁时显示出99%的过滤效率,在两种操作条件下都有效地控制了SPN10的排放。向SPN10的转变还需要控制在选择性催化还原(SCR)系统内形成的纳米颗粒,对于测试卡车来说,这超过了建议的(热)限制高达56%。专门设计用于捕获这些颗粒的专用颗粒过滤器也进行了评估,显示出优于60%的效率。这项研究的关键信息是,在所有条件下,SPN的排放都可以保持在低水平。
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Diesel Particle Filter Requirements for Euro 7 Technology Continuously Regenerating Heavy-Duty Applications
The upcoming Euro 7 regulation for Heavy-Duty (HD) vehicles is calling for a further tightening of the Solid Particle Number (SPN) emissions by means of both lowering the applicable limits and shifting the lowest detectable size from 23 nm (SPN23) to 10 nm (SPN10). A late-technology diesel HD truck was tested on a chassis dynamometer in order to assess the necessary particle filtration requirements for a continuously regenerating system. The study showed that passive regeneration under real-world operating conditions can lead to a significant release of SPN10 particles from the current technology Diesel Particulate Filter (DPF) when soot-loaded, even exceeding the currently applicable emission limits. The actual emissions during passive regeneration and following the clean-up of the DPF exceeded the proposed Euro 7 limits by more than an order of magnitude. A prototype DPF, exhibiting a 99% filtration efficiency when clean, was shown to effectively control SPN10 emissions under both operating conditions. The shift to SPN10 also necessitates control of nanoparticles forming inside the Selective Catalytic Reduction (SCR) system, which for the tested truck exceeded the proposed (hot) limit by up to 56%. A dedicated particle filter specifically designed to capture these particles was also evaluated, showing a better than 60% efficiency. The key message of this study is that SPN emissions can be kept at low levels under all conditions.
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