电动国内航空。丹麦的案例可行吗?

IF 1 4区 工程技术 Q4 ENGINEERING, CIVIL Proceedings of the Institution of Civil Engineers-Transport Pub Date : 2023-03-27 DOI:10.1680/jtran.22.00090
Ali Fahad Dahham, Christian Rønn Olsen, G. Xydis
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引用次数: 0

摘要

这项工作旨在澄清电动航空是否能够符合丹麦政府关于到2030年国内航线零排放碳足迹的要求。提出的电池类型试图回答电动航空运输是否在商业上可行。这项研究弥补了到2030年通过电动飞机移动的可行性评估的空白,因为在目前的发展下,与传统燃料相比,为燃烧驱动的飞机提供足够的能量(以Wh/kg计)的可行性进行了分析。基于能量密度为260Wh/kg的锂离子电池的计算表明,只有新电池技术的发展才能实现目标。再一次根据结果,二氧化碳将减少大约。17%。据飞机制造商称,一架全电动飞机最多可搭载186名乘客,可以满足丹麦国内航班的需求。其他类型的电池,如Li-S和Li-O2将与研究相关,因为它们的能量密度更高,而且使用了其他天然矿物质,而不仅仅是锂。
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Electric domestic aviation. Is the Danish case feasible?
This work aims to clarify if electric-powered aviation can comply with the requirements from the Danish government for a zero-emission carbon footprint by 2030 for domestic flight routes. The battery types were presented trying to answer if electric air transportation can be commercially viable. The gap in evaluating the feasibility of moving via electric aircrafts by 2030 was met via this research, since the feasibility under the current developments to deliver enough energy in terms of Wh/kg versus the conventional fuel for a combustion-driven aircraft was analyzed. The calculations, based on Li-Ion batteries with an energy density of 260Wh/kg, showed that the goals will be met only with the development of new battery technology. According to the results again, there will be a reduction in CO2 by approx. 17%. According to the aircraft manufacturers, it will be possible to fit up to 186 passengers in a fully electric-driven aircraft, which can meet the demand for domestic flights in Denmark. Other types of batteries, such as Li-S and Li-O2 will be relevant to investigate because of their higher energy density and usage of other natural minerals than just Lithium.
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来源期刊
CiteScore
2.60
自引率
0.00%
发文量
42
审稿时长
5 months
期刊介绍: Transport is essential reading for those needing information on civil engineering developments across all areas of transport. This journal covers all aspects of planning, design, construction, maintenance and project management for the movement of goods and people. Specific topics covered include: transport planning and policy, construction of infrastructure projects, traffic management, airports and highway pavement maintenance and performance and the economic and environmental aspects of urban and inter-urban transportation systems.
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