Advanced hybrid combustion systems as a part of efforts to achieve carbon neutrality of the vehicles

IF 3.3 Q3 ENERGY & FUELS
M. Puškár, M. Kopas
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Abstract

Abstract Global goals, including those of the EU, are focussed on transition to the green, circular and low-carbon economy. The intention within the framework of EU is to achieve the zero level of CO_2 emissions for the new cars till the year 2035. An important part of this plan is the agreement between Germany and the European Union that the new vehicles equipped with the internal combustion engines can continue to be sold only in such a case if they will use solely the climate-neutral fuel. Therefore, the future will probably belong to application of the advanced low-temperature technologies in combination with the climate-sustainable fuels (e.g. synthetic fuels, hydrogen). The presented scientific-research work introduces two new low-temperature combustion systems, which were developed and patented at the national level. At the same time, these new combustion systems are tested in cooperation with a reputable automotive producer. It is necessary to emphasize such a positive fact that the obtained results prove relevance of the innovative combustion systems as well as their possible future applicability in the real vehicles as a part of the advanced hybrid drive system. Graphical abstract Highlights Nowadays, the significant efforts are focussed on reduction of gaseous emissions generated by the transport, what is resulting in development of electromobility. CO_2 neutrality in the transport sector cannot be reached by the electromobility alone. A potential solution is a combination of the sustainable fuels and advanced low-temperature combustion technologies. These two systems, which are presented in the article, were the subject of experimental research and development. Discussion Within the EU, there are strong efforts for a total restriction of internal combustion engines. The German Association of Automotive Industry (VDA) declares that “CO_2 neutrality in the transport sector cannot be solved by the electromobility alone”. The official statement of VDA continues: “Even if, in ideal case, we had 15 million electric cars on the roads in 2030, most of the vehicles will still be equipped with combustion engines. Nowadays, 280 million cars are using combustion engines in everyday operation in the EU and there are 1.5 billion of them worldwide. Climate-neutral transport is impossible without new structure of global vehicle fleet and its decarbonisation”. According to VDA, the only solution, how to reduce emission footprint, using the current vehicle fleet, is application of the synthetic fuels. Therefore, still more resources should be invested into research and development of new sustainable fuels.
先进的混合燃烧系统是实现车辆碳中和努力的一部分
摘要 包括欧盟在内的全球目标都侧重于向绿色、循环和低碳经济过渡。欧盟框架内的目标是到 2035 年实现新车二氧化碳零排放。该计划的一个重要组成部分是德国和欧盟之间达成的协议,即只有在完全使用气候中和燃料的情况下,配备内燃机的新车才能继续销售。因此,未来可能属于结合气候可持续燃料(如合成燃料、氢气)应用先进低温技术的时代。本科研成果介绍了两种新的低温燃烧系统,它们都是在国家层面开发并获得专利的。同时,这些新型燃烧系统还与一家著名的汽车生产商合作进行了测试。有必要强调一个积极的事实,即所获得的结果证明了创新燃烧系统的相关性,以及它们作为先进混合动力驱动系统的一部分未来在实际车辆中的适用性。图文摘要 亮点 如今,人们将大量精力集中在减少交通工具产生的气体排放上,从而推动了电动交通工具的发展。仅靠电动汽车无法实现交通领域的二氧化碳中和。一个潜在的解决方案是将可持续燃料与先进的低温燃烧技术相结合。文章中介绍的这两种系统是实验研究和开发的主题。讨论 在欧盟内部,全面限制内燃机的呼声很高。德国汽车工业协会 (VDA) 宣称,"仅靠电动汽车无法解决交通领域的二氧化碳中和问题"。德国汽车工业协会的官方声明继续指出"即使在最理想的情况下,到 2030 年道路上行驶的电动汽车达到 1500 万辆,但大部分车辆仍将配备内燃机。目前,欧盟每天有 2.8 亿辆汽车在使用内燃机,全球有 15 亿辆。如果没有全球车队的新结构及其去碳化,就不可能实现气候中和交通"。根据 VDA 的说法,利用现有车辆减少排放足迹的唯一解决方案是使用合成燃料。因此,应将更多资源投入到新型可持续燃料的研发中。
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
MRS Energy & Sustainability
MRS Energy & Sustainability ENERGY & FUELS-
CiteScore
6.40
自引率
2.30%
发文量
36
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