非热等离子体状态下预充电生物柴油废气纳米颗粒数量衍生特性的洞察

Insight into Nanoparticle-Number-Derived Characteristics of Precharged Biodiesel Exhaust Gas in Nonthermal Plasma State.

作者信息

Thitipatanapong Sarapon, Visuwan Poranat, Komintarachat Cholada, Theinnoi Kampanart, Chuepeng Sathaporn

机构信息

Department of Mechanical Engineering, Faculty of Engineering, Kasetsart University, 50 Ngamwongwan Road, Bangkok 10900, Thailand.

ATAE Research Unit, Department of Mechanical Engineering, Faculty of Engineering at Sriracha, Kasetsart University, 199 Sukhumvit Road, Chonburi 20230, Thailand.

出版信息

ACS Omega. 2022 Feb 4;7(6):5376-5384. doi: 10.1021/acsomega.1c06597. eCollection 2022 Feb 15.

DOI:10.1021/acsomega.1c06597

PMID:35187352

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8851636/

Abstract

The utilization of biodiesel as an alternative partial replacement of diesel fuel was shown to improve exhaust emissions from diesel engines. Waste cooking oil biodiesel (WCO) has also gained more attention due to edible biofuel supply and the environment. In this study, a nonthermal plasma (NTP) technique was applied to be equipped into the after-treatment system of a four-cylinder diesel engine at medium- and high-load conditions. The exhaust gases in the NTP state from the combustion of WCO and diesel (D100) fuels were partially drawn by spectrometers and nanoparticle-number-derived characteristics were analyzed. The particle number, area, and mass concentrations were in log-normal distribution over equivalent diameters, and they were higher at high load. The concentration of the particulate matter (PM) was lower but was larger in size when the NTP charger was activated due to coagulation principally owing to WCO's number and surface area. The total particle masses were lower for WCO at the two load conditions tested. During NTP charger activation, the mass mean diameters were increased by maximum values of 24.0% for D100 and 5.5% for WCO. The PM removal efficiencies were maximized by 10.8% for D100 and 16.7% for WCO when the NTP charger was in use, and the WCO exhaust was dominantly seen to simultaneously reduce NO and PM emissions.

摘要

使用生物柴油作为柴油燃料的一种替代部分替代品已被证明可以改善柴油发动机的废气排放。由于食用生物燃料供应和环境问题，废食用油生物柴油（WCO）也受到了更多关注。在本研究中，一种非热等离子体（NTP）技术被应用于配备在一台四缸柴油发动机的中高负荷工况下的后处理系统中。由WCO和柴油（D100）燃料燃烧产生的处于NTP状态的废气被光谱仪部分抽取，并对纳米颗粒数量衍生特性进行了分析。颗粒数量、面积和质量浓度在等效直径上呈对数正态分布，且在高负荷时更高。当NTP充电器启动时，颗粒物（PM）的浓度较低，但尺寸较大，这主要是由于WCO的数量和表面积导致的凝聚作用。在测试的两种负荷工况下，WCO的总颗粒质量较低。在NTP充电器启动期间，D100的质量平均直径最大增加了24.0%，WCO的质量平均直径最大增加了5.5%。当使用NTP充电器时，D100的PM去除效率最大提高了10.8%，WCO的PM去除效率最大提高了16.7%，并且可以看到WCO废气在很大程度上同时减少了NO和PM排放。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5a5/8851636/5d025b4b7317/ao1c06597_0002.jpg

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非热等离子体状态下预充电生物柴油废气纳米颗粒数量衍生特性的洞察

Insight into Nanoparticle-Number-Derived Characteristics of Precharged Biodiesel Exhaust Gas in Nonthermal Plasma State.

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