Electrification of Transport Service Applied to Massawa–Asmara

IF 2.7 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Cristiano Colombo, Alessandro Saldarini, M. Longo, W. Yaici, F. Borghetti, M. Brenna
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Abstract

Considering the proposed strict new constraints of public authorities, decarbonization has become a key trend in recent years. Although several countries have started the process of decarbonization through the introduction of electric vehicles in their public services, for many countries, especially developing countries, transportation is still a hard sector to decarbonize. The presence of obsolete and polluting vehicles discourages citizens from using public transport and thus incentivizes the use of private vehicles, which create traffic congestion and increase emissions. Based on these considerations, this paper aimed to implement a simulation for a public service in Eritrea, evaluating whether it is possible to take a long trip using an electric minibus. A case study is implemented highlighting the barriers of electrifying transportation in this area, producing results on fuel consumption and service reliability. In the case study, four scenarios are presented to estimate the service. The scenarios evaluate the possibility to perform from three to five recharges. Fewer charges mean longer charging time, leading to a 2 h charging phase in Scenario 1, while recharging more than twice along the route will lead to shorter 30 min charges, as in Scenario 3. The case study also highlights the relevance of the slope in electric vehicle performance, as reported for the case of Asmara–Massawa travel (Econs= 6.688 kWh). Finally, an environmentally sustainable solution, such as a 92 kWh/day photovoltaic plant, is proposed to power the service.
马萨瓦-阿斯马拉运输服务电气化
考虑到公共当局提出的严格的新限制,脱碳已成为近年来的一个关键趋势。虽然一些国家已经通过在其公共服务中引入电动汽车开始了脱碳进程,但对许多国家,特别是发展中国家来说,交通运输仍然是一个难以脱碳的部门。过时和污染严重的车辆的存在使市民不愿使用公共交通工具,从而鼓励使用私人车辆,从而造成交通堵塞和增加排放。基于这些考虑,本文旨在为厄立特里亚的公共服务实施模拟,评估是否有可能使用电动小巴进行长途旅行。案例研究强调了该地区电气化运输的障碍,并在燃料消耗和服务可靠性方面产生了结果。在案例研究中,提出了四种场景来评估服务。这些场景评估了执行三到五次充电的可能性。更少的充电意味着更长的充电时间,在场景1中,充电阶段为2小时,而在场景3中,沿着路线充电两次以上将缩短30分钟的充电时间。该案例研究还强调了斜率与电动汽车性能的相关性,如Asmara-Massawa行驶案例(Econs= 6.688千瓦时)。最后,提出了一个环境可持续的解决方案,如92千瓦时/天的光伏电站,为该服务供电。
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
Infrastructures
Infrastructures Engineering-Building and Construction
CiteScore
5.20
自引率
7.70%
发文量
145
审稿时长
11 weeks
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