氨、甲烷和汽油燃料混合物在小型火花点火发动机中的实验表征

IF 5 Q2 ENERGY & FUELS
Kaushik Nonavinakere Vinod, Matt Gore, Hanzhang Liu, Tiegang Fang
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引用次数: 0

摘要

在这项研究中,将气态无水氨与汽油和甲烷等燃料混合,并在装有仪器的低技术单缸化油器发动机中进行测试。用各种混合物监测缸内压力和排放,然后将其性能与纯汽油进行比较。随着氨的加入,燃烧室内燃烧的稳定性受到影响。但随着燃烧改性剂的加入,总体变异性降低了。在氨的取代率较高的情况下,初步结果显示发动机的指示热效率增加。当用氨代替汽油时,发动机的热释放率(HRR)也显著降低。随着甲烷的加入,燃料反应性的变化有助于提高HRR。与纯汽油相比,在汽油中氨的取代率为50%的情况下,增加氨的取代也导致指示效率增加约12%。向燃料混合物中添加氨也显示出未燃烧碳氢化合物排放的初始减少,随后随着浓度的进一步增加而突然增加,这表明燃料混合物未完全燃烧。在汽油中添加甲烷也显示出总体NOx排放量的减少。此外,还测试了甲烷作为主要燃料,氨替代率高达50%。这种氨和甲烷的混合物也显示出与测试的汽油、氨和甲烷混合物相当的结果。从排放数据中也可以看出氨的催化作用,一些案例显示出随着氨替代量的增加而变化的趋势。这项研究的结果可用于设计小型发动机发电系统,这些系统只需很少的修改即可接受氨基混合燃料。此外,这项研究为使用碳中和的技术和氨混合的甲烷燃料为基于发动机的系统提供动力奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental characterization of ammonia, methane, and gasoline fuel mixtures in small scale spark ignited engines

In this study, gaseous anhydrous ammonia is blended with fuels like gasoline and methane and tested in an instrumented, low-technology single cylinder carbureted engine. In-cylinder pressure and emissions are monitored with the various mixtures and their performance is then compared with pure gasoline. With the addition of ammonia, the stability of combustion inside the combustion chamber was affected. But with the addition of a combustion modifier, the overall variability was reduced. At higher substitutions of ammonia, Initial results show an increase in indicated thermal efficiency of the engine. There is also a substantial decrease in the heat release rate (HRR) of the engine when substituting gasoline with ammonia. With the addition of methane, the change in the fuel reactivity helped improve HRR. Increasing ammonia substitution also resulted in an increase in indicated efficiency when compared to pure gasoline by approximately 12% with 50% substitution of ammonia in gasoline. Adding ammonia to the fuel mixtures also showed an initial reduction in unburnt hydrocarbon emission, followed by a sudden increase with further increasing concentration, suggesting incomplete combustion of the fuel mixture. The addition of methane with gasoline also showed a reduction in overall NOx emissions. Furthermore, methane was also tested as the main fuel with ammonia substitution of up to 50%. This ammonia and methane blend also showed comparable results to the gasoline, ammonia, and methane blends tested. From the emissions data, the catalyzing effects of ammonia were also seen with some cases showing varying trends with increasing ammonia substitution. Results from this study can be used to design small-scale engine based power generation systems that need very little modifications to accept ammonia based mixed fuels. Furthermore, this study lays the groundwork for using fuels blends with methane sourced using carbon neutral technologies and ammonia to power engine based systems.

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