EFFECT OF USING LPG OF DIESEL ENGINE: A REVIEW

IF 0.2 Q4 CHEMISTRY, MULTIDISCIPLINARY

Periodico Tche Quimica Pub Date : 2022-07-31 DOI:10.52571/ptq.v19.n41.2022.05_mohsen_pgs_48_62.pdf

Maysaa J. Mohsen, M. Al-Dawody

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引用次数: 0

Abstract

Background: The depletion of petroleum resources and strict environmental concerns have sparked researchers to focus on searching for alternative energy sources for conventional petroleum fuels. These issues call for increasing awareness of effectively using the present reserves and turning to the use of alternative fuels. One of the solutions to achieving this is using gaseous fuels in addition to diesel fuel in diesel engines, such as hydrogen, liquefied petroleum gas (LPG), and natural gas. LPG dual-fuel engines are diesel engines modified to use LPG as the primary fuel and diesel as the secondary fuel. Aim: This study aimed to review the impact of inducting LPG through the intake manifold and directly into the combustion chamber on the combustion, performance, and emission parameters of diesel engines. Methods: This study presents a systematic review of the literature in which scientific articles were used as bibliographic sources. The selection of articles was carried out through a search in different databases. All articles found from the year 2001 to 2021 were initially selected. The following keywords were used diesel, liquefied petroleum gas, gas-powered diesel engines, and technologies. Terms were searched separately. The search strategy used to search the databases was based on the use of the following descriptors and keywords: (“diesel” AND “liquefied petroleum gas”) OR (“gas-powered diesel engines” AND “technologies”). As an exclusion criterion, all articles that did not approach LPG as the gaseous fuel in the dual-fuel engine were excluded from the work. After this survey, the total number of references used in this study was 66 articles. Results and Discussion: the results have shown that the qualities can be improved by using the techniques and concepts that have been developed. The engine and its component elements and the gas system were put through their paces in a laboratory setting. Other tests were conducted using theoretical analysis software like diesel RK. Combustion may occur either when the gas is introduced directly into the combustion chamber or when it is introduced indirectly via the air manifold and mixed with air. Conclusions: Using LPG in the CI engine improves mixing and combustion, lowers fuel consumption, and enhances emission characteristics while lowering costs. When LPG is put into an engine, the engine's performance dramatically improves. Gaseous LPG is injected into the combustion chamber to create a lean, uniform air-LPG mixture. Due to this consistent mixture, NOx emissions are drastically reduced. Increasing the temperature of the intake charge improves the thermal brake efficiency and reduces emissions of HC and CO.

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柴油机使用液化石油气的效果综述

背景：石油资源的枯竭和对环境的严格关注促使研究人员专注于寻找传统石油燃料的替代能源。这些问题要求提高人们对有效利用现有储量的认识，并转向使用替代燃料。实现这一目标的解决方案之一是在柴油发动机中使用除柴油外的气体燃料，如氢气、液化石油气（LPG）和天然气。液化石油气双燃料发动机是经改装以使用液化石油气作为主要燃料和柴油作为次要燃料的柴油发动机。目的：本研究旨在考察通过进气歧管将液化石油气直接引入燃烧室对柴油机燃烧、性能和排放参数的影响。方法：本研究对以科学文章为文献来源的文献进行了系统综述。文章的选择是通过在不同的数据库中进行搜索来进行的。最初选择了2001年至2021年的所有文章。以下关键词使用了柴油、液化石油气、燃气柴油发动机和技术。单独搜索术语。用于搜索数据库的搜索策略基于以下描述符和关键字的使用：（“柴油”和“液化石油气”）或（“燃气柴油发动机”和“技术”）。作为排除标准，所有没有将液化石油气作为双燃料发动机中的气体燃料的文章都被排除在工作之外。本次调查后，本研究使用的参考文献总数为66篇。结果和讨论：结果表明，使用已经开发的技术和概念可以提高质量。发动机及其零部件和气体系统在实验室环境中进行了测试。其他测试是使用柴油RK等理论分析软件进行的。当气体直接引入燃烧室或通过空气歧管间接引入并与空气混合时，可能会发生燃烧。结论：在CI发动机中使用LPG改善了混合和燃烧，降低了燃料消耗，提高了排放特性，同时降低了成本。当液化石油气被放入发动机中时，发动机的性能会显著提高。气态液化石油气被注入燃烧室，形成稀薄、均匀的空气-液化石油气混合物。由于这种一致的混合物，NOx排放量大大减少。增加进气充气的温度提高了热制动效率并减少了HC和CO的排放。

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Periodico Tche Quimica CHEMISTRY, MULTIDISCIPLINARY-

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