探索库奇地区公共交通服务成本效益高的车队电气化可能性

Mamta L Prajapati, Nipa A. Desai
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摘要

公交巴士大量使用化石燃料导致了环境问题和燃料短缺。可再生能源已成为缓解这些问题的潜在解决方案。世界上许多国家已经采用可再生能源来应对这些挑战。同样,印度政府也通过补贴在多个领域开始采用电动汽车,以减少对传统燃料的依赖。本研究调查了两个关键领域:柴油公交车(GSRTC)的燃料消耗依赖性和空气质量影响评估,以及探索车队电气化的可能性。近期化石燃料成本的大幅上涨暴露了实现净零目标、确保能源安全和维持经济承受能力之间的内在矛盾。这项研究采用了三阶段能源建模方法:路线能源规划、充电基础设施规划和总体拥有成本(TCO)分析。本研究探讨了蒙德拉车厂车队电气化的潜力,旨在用环保型电动汽车(EV)取代现有的柴油内燃机(ICE)。本研究共调查了 Mundra 车厂的 18 辆公交车,涉及 22 条线路,103 个班次。优先选择了需要最少能源的最佳路线。在此基础上,并根据 25% 的最低充电状态要求,选择了五辆公交车进行进一步研究。考虑到巴士资本化、电池资本化、充电基础设施和年度运营成本,对内燃机柴油巴士和电动巴士的年度资本成本进行了分析。研究结果表明,电动巴士的总拥有成本明显低于柴油巴士(49.64 Rs/km 对 72.80 Rs/km)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring Cost Effective Fleet Electrification Possibilities for Public Transit Services in Kutch Region
The extensive use of fossil fuels in transit buses has led to both environmental problems and fuel scarcity. Renewable energy has emerged as a potential solution to mitigate these issues. Many countries worldwide have already adopted renewable energy to address these challenges. Similarly, the Indian government has initiated e-vehicle adoption in various sectors through subsidies to reduce dependence on conventional fuels. This research investigates two key areas: Fuel consumption dependency and air quality impact assessment for diesel-operated public buses (GSRTC) and Exploring fleet electrification possibilities. The recent significant rise in fossil fuel costs has exposed the inherent conflicts between achieving net-zero goals, ensuring energy security, and maintaining affordability. This research employs a three-stage energy modeling methodology: Route energy planning, charging infrastructure planning and total cost of ownership (TCO) analysis. This study explores the potential for fleet electrification at the Mundra depot, aiming to replace existing diesel-powered internal combustion engines (ICEs) with environmentally friendly electric vehicles (EVs). A total of 18 buses from the Mundra depot, covering 22routes with 103 trips, were surveyed. An optimal route requiring minimal energy was prioritized. Based on this and a minimum state-of-charge requirement of 25%, five buses were chosen for further study. An analysis of annual capital costs for both ICE diesel and electric buses was conducted, considering bus capitalization, battery capitalization, charging infrastructure, and annual operation costs. The findings revealed that the TCO for an EV bus is significantly lower than that of a diesel bus (49.64 Rs/km vs. 72.80 Rs/km).
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