Effect of fuel injection pressure on the performances of a CI engine using water-emulsified diesel (WED) as a fuel

IF 4.6 3区工程技术 Q2 ENERGY & FUELS

Energy, Sustainability and Society Pub Date : 2024-01-23 DOI:10.1186/s13705-024-00442-7

Pijush Kanti Mondal, Bijan Kumar Mandal

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引用次数: 0

Abstract

Background

The choice of energy sources is essential for sustainable development to combat different environmental issues caused by the consumption of fossil fuels. Though diesel engines are considered more efficient and reliable than other internal combustion engines, they emit different harmful pollutants which are detrimental to human health and the environment. Researchers are trying to find suitable alternative fuels for diesel engines with lower pollutant emissions and without much compromise in the efficiency of the engine. In this regard, water-emulsified diesel (WED) may be considered to be one of the most suitable alternative fuels. It is expected that the entire world will use electric vehicles in the long term. However, the complete replacement of IC engines in the near future is not feasible. In fact, different European countries have targeted to ban the use of diesel engine cars before the middle of the twenty-first century. Prior to that date, hybrid vehicles will be more popular and diesel engines will continue to play an important role. Hence, research involving improvements in diesel-operated IC engines is still relevant.

Methods

An experimental investigation was carried out using WED containing 10% water by volume as a fuel in a diesel engine at four different fuel injection pressures. The WED was prepared using an ultrasonicator.

Results

With the increase of injection pressure, peak net heat release rate and in-cylinder pressure are found to have increased. Brake thermal efficiency is also found to have improved at higher injection pressure. The maximum efficiency was recorded when a WED at 210 bar of injection pressure is used, and it is about 3.3% higher than the maximum efficiency achieved when using normal diesel at the same pressure of fuel injection. At a higher load, neat brake-specific fuel consumption is found to be less compared to neat diesel, when only the amount of diesel contained in the emulsion as a fuel is considered. Maximum reduction in both NO_x and smoke emission by using WED is recorded at 210 bar, and the average reductions are determined to be 32.6% and 51.9%, respectively.

Conclusions

WED can be used as an alternative fuel for existing diesel engines without any retrofitting and with significant reduction in the emissions of pollutants compared to normal diesel fuel. It can also be concluded that at higher injection pressure, the combustion, performance and emission characteristics of compression ignition engines are improved when using emulsified diesel.

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燃油喷射压力对使用水乳化柴油（WED）作为燃料的 CI 发动机性能的影响

能源的选择对于可持续发展至关重要，以应对化石燃料消耗所造成的各种环境问题。虽然柴油发动机被认为比其他内燃机更高效、更可靠，但它们会排放各种有害污染物，对人类健康和环境造成危害。研究人员正试图为柴油发动机寻找合适的替代燃料，既能降低污染物排放，又不影响发动机的效率。在这方面，水乳化柴油（WED）可被视为最合适的替代燃料之一。预计从长远来看，全世界都将使用电动汽车。然而，在不久的将来完全取代集成电路发动机并不可行。事实上，欧洲各国已经制定了在二十一世纪中叶之前禁止使用柴油发动机汽车的目标。在此之前，混合动力汽车将更加普及，柴油发动机将继续发挥重要作用。因此，改进柴油集成电路发动机的研究仍然具有现实意义。我们在柴油发动机中使用按体积计算含水量为 10% 的 WED 作为燃料，在四种不同的燃油喷射压力下进行了实验研究。WED 是用超声波发生器制备的。随着喷射压力的增加，发现峰值净热释放率和缸内压力都有所增加。在较高的喷射压力下，制动热效率也有所提高。当使用 210 巴喷射压力的 WED 时，记录到的最高效率比在相同喷射压力下使用普通柴油时的最高效率高约 3.3%。在较高负荷下，如果只考虑乳化液中作为燃料的柴油含量，则发现纯柴油的制动油耗比纯柴油低。在压力为 210 巴时，使用 WED 可最大程度地减少氮氧化物和烟雾的排放，平均减少量分别为 32.6% 和 51.9%。与普通柴油相比，WED 可用作现有柴油发动机的替代燃料，无需进行任何改装，并能显著减少污染物的排放。此外，还可以得出结论，在较高的喷射压力下，使用乳化柴油可改善压燃式发动机的燃烧、性能和排放特性。

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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来源期刊

Energy, Sustainability and Society Energy-Energy Engineering and Power Technology

CiteScore

9.60

自引率

4.10%

发文量

审稿时长

13 weeks

期刊介绍： Energy, Sustainability and Society is a peer-reviewed open access journal published under the brand SpringerOpen. It covers topics ranging from scientific research to innovative approaches for technology implementation to analysis of economic, social and environmental impacts of sustainable energy systems.