Solutions for decarbonising urban bus transport: a life cycle case study in Saudi Arabia

Chengcheng Zhao, Leiliang Zheng Kobayashi, Awad Bin Saud Alquaity, Jean-Christophe Monfort, Emre Cenker, Noliner Miralles, S. Mani Sarathy
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Abstract

With heavy reliance on fossil fuels, countries like Saudi Arabia face challenges in reducing carbon emissions from urban bus transportation. Herein, we address the gaps in evaluating proton-exchange membrane fuel cell buses and develop a globally relevant life-cycle assessment model using Saudi Arabia as a case study. We consider various bus propulsion technologies, including fuel cell buses powered by grey and blue hydrogen, battery electric buses, and diesel engines, and include the shipping phase, air conditioning load, and refuelling infrastructure. The assessment illustrates fuel cell buses using blue hydrogen can reduce emissions by 53.6% compared to diesel buses, despite a 19.5% increase in energy use from carbon capture and storage systems. Battery electric buses are affected by the energy mix and battery manufacturing, so only cut emissions by 16.9%. Sensitivity analysis shows climate benefits depend on energy sources and efficiencies of carbon capture and hydrogen production. By 2030, grey and blue hydrogen-powered fuel cell buses and battery electric buses are projected to reduce carbon emissions by 19.3%, 33.4%, and 51% respectively, compared to their 2022 levels. Fully renewable-powered battery electric buses potentially achieve up to 89.6% reduction. However, fuel cell buses consistently exhibit lower environmental burdens compared to battery electric buses. Chengcheng Zhao and co-authors study the potential of battery electric buses and hydrogen polymer electrolyte membrane fuel cell buses. They analyse their usage in urban transport and quantify the environmental impact.

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城市公交脱碳解决方案:沙特阿拉伯生命周期案例研究
由于严重依赖化石燃料,沙特阿拉伯等国在减少城市公交车运输碳排放方面面临挑战。在此,我们针对质子交换膜燃料电池公交车评估中存在的不足,以沙特阿拉伯为案例,开发了一个全球相关的生命周期评估模型。我们考虑了各种巴士推进技术,包括以灰色和蓝色氢气为动力的燃料电池巴士、电池电动巴士和柴油发动机,并包括运输阶段、空调负荷和加气基础设施。评估结果表明,与柴油巴士相比,使用蓝色氢气的燃料电池巴士可减少 53.6% 的排放量,尽管碳捕集与封存系统的能耗增加了 19.5%。电池电动公交车受能源组合和电池制造的影响,只能减少 16.9% 的排放量。敏感性分析表明,气候效益取决于能源以及碳捕集与氢生产的效率。到 2030 年,与 2022 年的水平相比,灰色和蓝色氢动力燃料电池公交车和电池电动公交车的碳排放量预计将分别减少 19.3%、33.4% 和 51%。完全可再生动力的电池电动公交车可实现高达 89.6% 的减排。不过,与电池电动公交车相比,燃料电池公交车的环境负担始终较低。Chengcheng Zhao 和合著者研究了电池电动公交车和氢聚合物电解质膜燃料电池公交车的潜力。他们分析了它们在城市交通中的应用,并量化了对环境的影响。
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