使用生物柴油和铂金属偏流微粒过滤器的柴油车的微粒排放和热效率分析

IF 6.2 2区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
Huy Quang Dang , Mi Zwe Mon Phyo , Poonnut Thaeviriyakul , Plan Teekatasn Cosh , Mek Srilomsak , Therdsak Petblengsri , Ittipol Pawarmart , Sompong Srimanosaowapak , Hidenori Kosaka , Preechar Karin
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引用次数: 0

摘要

柴油车(尤其是未改装的柴油车)的有害排放物对人类健康和环境造成了严重影响,因此迫切需要解决这些问题。本研究调查了商用燃料 B10、B20 和生物柴油 B100 与金属部分流量催化柴油微粒过滤器 (P-CDPF) 配合使用对轻型未改装柴油车热效率和排放特性的影响。最初的测试是在底盘测功机上进行的,以测量三种不同发动机转速(1500、2000 和 2500 rpm)和四种负载(84、112、140 和 160 Nm)下的燃油流量。这样做是为了评估稳态条件下的制动油耗和制动热效率。第二项测试采用了新的欧洲驾驶循环,以检查城市和高速公路驾驶条件下受管制污染物的排放系数。结果表明,BSFC 值随着混合燃料中生物柴油比例的增加而增加,这归因于较低的热值。不过,随着生物柴油比例的增加,氧气含量也会增加,从而使燃烧更完全,制动热效率也会提高。由于 P-CDPF 的压降相对较低,因此在所有测试燃料中,安装 P-CDPF 的影响很小,导致 BSFC 增加不到 3.4%,制动热效率降低 1%。将生物柴油的比例从 B10 和 B20 提高到 B100 后,车辆排放的颗粒物质量减少了 32%,颗粒物数量减少了 45%。在所有测试燃料中,P-CDPF 的安装进一步使颗粒物质量减少了 60% 以上,颗粒物数量减少了 36%,证明了其在捕集和被动氧化颗粒物方面的有效性。此外,P-CDPF 还能在添加催化涂层后显著减少有害气体。将 P-CDPF 和商用生物柴油燃料结合使用,是减少未改装柴油车受管制排放物的有效解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Particle emission and thermal efficiency analysis of a diesel vehicle using biodiesel and a platinum metallic partial-flow particulate filter
Harmful emissions from diesel vehicles, particularly unmodified ones, pose significant concerns for human health and the environment, underscoring the urgency to address these issues. This study investigated the effects of commercial fuels, B10, B20, and biodiesel B100, used with a metallic partial-flow catalyzed diesel particulate filter (P-CDPF), on a light-duty unmodified diesel vehicle's thermal efficiency and emissions characteristics. The initial test was conducted on a chassis dynamometer to measure the fuel flow rates at three different engine speeds, 1500, 2000, and 2500 rpm, with four loads, 84, 112, 140, and 160 Nm. This was done to evaluate brake-specific fuel consumption and brake thermal efficiency under steady-state conditions. The second test followed the new European driving cycle to examine emission factors of regulated pollutants under both urban and highway driving conditions. The results indicated that BSFC values increased with the biodiesel ratio in the blends, attributed to lower heating values. However, higher oxygen contents with increasing biodiesel ratios led to more complete combustion and improved brake thermal efficiency. Installation of a P-CDPF had a minimal impact, resulting in less than a 3.4% increase in the BSFC and a 1% decrease in brake thermal efficiency across all tested fuels, owing to its relatively low pressure drop. Increasing the biodiesel ratio from B10 and B20 to B100 resulted in reductions of up to 32% of particulate mass and 45% of particulate number in vehicle emissions. P-CDPF installation further reduced particulate mass by over 60% and particulate number by 36% across all tested fuels, demonstrating its effectiveness in trapping and passively oxidizing particulate matter. Furthermore, the P-CDPF significantly reduced harmful gases with addition of a catalytic coating. A combination of a P-CDPF and commercial biodiesel fuels emerges as an effective solution for reducing regulated emissions from unmodified diesel vehicles.
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来源期刊
alexandria engineering journal
alexandria engineering journal Engineering-General Engineering
CiteScore
11.20
自引率
4.40%
发文量
1015
审稿时长
43 days
期刊介绍: Alexandria Engineering Journal is an international journal devoted to publishing high quality papers in the field of engineering and applied science. Alexandria Engineering Journal is cited in the Engineering Information Services (EIS) and the Chemical Abstracts (CA). The papers published in Alexandria Engineering Journal are grouped into five sections, according to the following classification: • Mechanical, Production, Marine and Textile Engineering • Electrical Engineering, Computer Science and Nuclear Engineering • Civil and Architecture Engineering • Chemical Engineering and Applied Sciences • Environmental Engineering
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