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引用次数: 0
摘要
本文研究了柴油发动机微粒滤清器系统中的氧化催化转换器,重点是模拟和经验研究。该转化器体积为 1.4 dm3,通道密度为 400 cpsi,铂涂层的重量为 2.5 g/dm3。扫描电子显微镜(SEM)对其表面进行了检查,显示出铂金和随机分布的铂晶粒的高多孔结构。我们使用 AVL Boost 进行了模拟,利用真实的废气浓度来评估各种转换器的体积和通道密度,以实现一氧化碳、碳氢化合物和二氧化氮在氮氧化物中的转化。这些模拟与在发动机测功机上进行的经验测试同步进行。模拟数据和实验数据的对比表明,模拟算法可以准确预测转换器在降低 CO 和 HC 含量以及 NOX 中 NO2 含量方面的性能。这表明,模拟可以部分取代成本高昂的经验研究,为转换器未来的有效性提供初步评估。
A simulation and experimental verification of the operation of the oxidising catalytic converter in diesel engine.
This paper investigates an oxidizing catalytic converter in a diesel engine's particulate filter system, focusing on simulations and empirical studies. The converter, with a 1.4 dm3 volume and 400 cpsi channel density, features a platinum coating of 2.5 g/dm3. Scanning electron microscopy (SEM) examined its surface, revealing platinum and a highly porous structure with randomly distributed Pt crystallites. Simulations were conducted using AVL Boost, utilizing real exhaust gas concentrations to assess various converter volumes and channel densities for CO, HC, and NO2 conversion in NOX. These simulations were paralleled with empirical tests on an engine dynamometer. The comparison of simulation and experimental data showed that the simulation algorithm could accurately predict the converter's performance in reducing CO and HC levels and NO2 in NOX. This suggests that simulations can partly replace costly empirical research, offering a preliminary evaluation of the converter's future effectiveness.
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