Human-powered vehicles as a way to abate transport-related greenhouse gas emissions: Part 2 - A virtual prototype for emissions and performance analyses

Q1 Engineering

Transportation Engineering Pub Date : 2024-09-26 DOI:10.1016/j.treng.2024.100278

Alessandro Di Gesù, Chiara Gastaldi, Cristiana Delprete

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Abstract

Velomobiles, despite their potential for efficient transportation, remain relatively unknown compared to electric cars, receiving limited attention in academic research and public awareness. This paper highlights their untapped potential and underlines public interest in their adoption, provided a velomobile meeting customer requirements is available. Leveraging the Model Based System Engineering (MBSE) methodology, this work presents a structured approach to design, focusing on customer needs translation and digital prototype validation. This iterative process ensures velomobiles meet performance criteria while minimizing environmental impact. The lack of standardized testing for the energy consumption of Human-Powered Vehicles (HPVs) is addressed by proposing an analysis of consumption under diverse operating conditions, giving information on the environmental assessments. This study underscores velomobiles’ potential as a sustainable transportation solution and provides a framework for their design, validation, and optimization.

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将人力车辆作为减少与交通相关的温室气体排放的一种方式：第 2 部分--用于排放和性能分析的虚拟原型

尽管电动汽车具有高效运输的潜力，但与电动汽车相比，它们仍相对默默无闻，在学术研究和公众意识方面受到的关注有限。本文强调了它们尚未开发的潜力，并强调了公众对采用它们的兴趣，前提是要有符合客户要求的电动汽车。利用基于模型的系统工程（MBSE）方法，这项工作提出了一种结构化设计方法，重点是客户需求转化和数字原型验证。这一迭代过程可确保单车在满足性能标准的同时，最大限度地减少对环境的影响。针对人力车辆（HPV）能耗缺乏标准化测试的问题，提出了在不同运行条件下的能耗分析，提供了环境评估信息。这项研究强调了电动汽车作为可持续交通解决方案的潜力，并为其设计、验证和优化提供了一个框架。

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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