基于预混合加注压缩点火模式的发动机在分注策略下使用生物柴油/柴油混合物的模拟研究

Q3 Agricultural and Biological Sciences

International Journal on Advanced Science, Engineering and Information Technology Pub Date : 2024-04-15 DOI:10.18517/ijaseit.14.2.20007

Dao Nam Cao, Anish Jafrin Thilak Johnson

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引用次数: 1

摘要

交通工具造成的环境污染和自然资源退化是全球关注的首要问题。据统计，车辆排放的氮氧化物和可吸入颗粒物占城市地区总排放量的 70%。因此，必须找到减少氮氧化物和可吸入颗粒物排放的解决方案。在已知的解决方案中，改变发动机的内部燃烧方式被认为是有前景、有影响的。其中一个研究方向是使用预混合充气压缩点火（PCCI）方法与生物燃料相结合的内燃机，以改善混合气的形成和燃烧过程，减少氮氧化物和可吸入颗粒物的排放。因此，本研究介绍了内燃机传统燃烧和低温燃烧过程中 PM 和 NOx 排放的形成机理。此外，还介绍了燃烧过程中火焰蔓延的理论基础。这项研究的主要特点是模拟了 PCCI 模式下柴油发动机的燃烧过程。该模型是利用基于废弃食用油（WCO）的生物柴油和柴油的混合物以及 ANSYS Fluent 软件实现的。结果表明，使用 B20 燃料进行 PCCI 燃烧可显著减少氮氧化物和可吸入颗粒物的排放，但碳氢化合物和一氧化碳的排放会增加，热效率会降低。在进一步的研究中，应深入研究 PCCI 燃烧过程的不同模式，以便在实践中采用该过程来减少污染物排放。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Simulation Study on a Premixed-charge Compression Ignition Mode-based Engine Using a Blend of Biodiesel/Diesel Fuel under a Split Injection Strategy

Environmental pollution from transportation means and natural resource degradation are the top concern globally. According to statistics, NOx and PM emissions from vehicles account for 70% of total emissions in urban areas. Therefore, finding solutions to reduce NOx and PM emissions is necessary. Changing the engine's internal combustion method is considered promising and influential among the known solutions. One of the research directions is a combustion engine using the Premixed Charge Compression Ignition (PCCI) method combined with biofuels to improve the mixture formation and combustion process, reducing NOx and PM emissions. Therefore, this study presents the mechanism of the formation of PM and NOx emissions in the traditional combustion and the low-temperature combustion process of internal combustion engines. Besides, the theoretical basis of flame spread during combustion is also introduced. The key feature of this research is that it has modeled the combustion process in diesel engines under the PCCI modes. This was accomplished using blends of waste cooking oil (WCO)-based biodiesel and diesel fuel, as well as the ANSYS Fluent software. The results showed that PCCI combustion using B20 fuel can significantly reduce NOx and PM emissions, although HC and CO emissions tend to increase, and thermal efficiency tends to decrease. In further studies, different modes of the PCCI combustion process should be thoroughly examined so that this process can be implemented in practice to reduce pollutant emissions.

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来源期刊

International Journal on Advanced Science, Engineering and Information Technology Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.40

自引率

0.00%

发文量

272

期刊介绍： International Journal on Advanced Science, Engineering and Information Technology (IJASEIT) is an international peer-reviewed journal dedicated to interchange for the results of high quality research in all aspect of science, engineering and information technology. The journal publishes state-of-art papers in fundamental theory, experiments and simulation, as well as applications, with a systematic proposed method, sufficient review on previous works, expanded discussion and concise conclusion. As our commitment to the advancement of science and technology, the IJASEIT follows the open access policy that allows the published articles freely available online without any subscription. The journal scopes include (but not limited to) the followings: -Science: Bioscience & Biotechnology. Chemistry & Food Technology, Environmental, Health Science, Mathematics & Statistics, Applied Physics -Engineering: Architecture, Chemical & Process, Civil & structural, Electrical, Electronic & Systems, Geological & Mining Engineering, Mechanical & Materials -Information Science & Technology: Artificial Intelligence, Computer Science, E-Learning & Multimedia, Information System, Internet & Mobile Computing