以麻疯树油、生物柴油和超低硫柴油为燃料的柴油机产生的颗粒物

Helmer-Rodolfo Acevedo-Gamboa, E. Flórez-Serrano
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引用次数: 4

摘要

生物柴油被推广为替代燃料,因为它们有可能减少对化石燃料的依赖和碳排放。该领域的研究主要集中在轻型车辆的排放研究上。然而,以麻疯树油生物柴油(JOB)和超低硫柴油(ULSD)为燃料的重型柴油机的颗粒物质和气体排放尚未得到研究。本研究的目的是探索康明斯4冲程4.8升4缸共轨燃油喷射柴油发动机的性能和排放水平,并配备冷却废气再循环系统(EGR)。与柴油相比,未燃烧的碳氢化合物(- 45%)、一氧化碳(- 75%)和颗粒物(- 25%)的排放量大幅减少。在中高负荷下,JOB的氮氧化物排放量高于ULSD。大部分(64%)的ULSD颗粒在40 ~ 560nm范围内。另一方面,JCB模式的大部分颗粒(94%)在6 ~ 40 nm之间。在6到40 nm的范围内,ULSD的质量平均直径分别为34.4、34.7和33.3 nm,而JOB的质量平均直径分别为21.3、18.2和20.1 nm,负载为100、50,负载为10%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PARTICLE MATTER FROM A DIESEL ENGINE FUELED WITH JATROPHA CURCAS OIL BIODIESEL AND ULTRA-LOW SULPHUR DIESEL
Biodiesels are promoted as alternative fuels due to their potential to reduce dependency on fossil fuels and carbon emissions. Research in this field has focused on the study of the emissions of light duty vehicles. However, particle matter and gaseous emissions emitted from heavy-duty diesel engines fueled by Jatropha Oil Biodiesel (JOB) and Ultra-Low Sulphur Diesel (ULSD) has not been studied. The objective of this study is to explore the performance and emission levels of a Cummins 4-stroke, 4.8 liter, 4-cylinder diesel engine with common rail fuel injection, equipped with a cooled Exhaust Gas Recirculation (EGR). There was a substantial reduction by the use of JOB in unburned hydrocarbons (- 45%), carbon monoxide (- 75%), and particulate matter (- 25%) compared to emission from diesel fuel. At mid and high loads, NOx emissions were higher for JOB compared to ULSD. Most of the particles (64%) for ULSD were in a range of between 40 and 560 nm. On the other hand, most of the particles (94%) for JCB mode were between 6 and 40 nm. In the range between 6 and 40 nm, mass mean diameters in ULSD were 34.4, 34.7 and 33.3 nm while for JOB they were 21.3, 18.2 and 20.1 nm for 100, 50 for a 10% load, respectively.
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