Comparing the Economic and Environmental Compatibility of Battery Electric and Conventional Vehicles in India

ICMAME 2023 Conference Proceedings Pub Date : 1900-01-01 DOI:10.53375/icmame.2023.341

Amrut P. Bhosale, S. Mastud, Viraj I. Pasare, Ketaki A. Bhosale, Praveen S. Atigre

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Abstract

Conventional vehicle fuel resources are encompassed with the jeopardy of being scarce; eventually exacerbating fuel prices. This high fuel prices further aggregate to elevate the total ownership cost and have led to an epiphany of national energy security. Further, the emission from conventional fuel combustion urges a need to cogitate about the already saddled environmental concerns. Alternatively, electric vehicles are looked upon as a potential option to conventional vehicles due to no tail-pipe emissions and low operating costs. However, if a complete life cycle is considered, an intuitive assumption that electric vehicles have no emissions and costs less can be a deception. Hence, the feasibility of electric vehicles as an option for conventional vehicles needs to be contemplated in economic and environmental aspects. This article presents the comparison between battery electric vehicles and conventional vehicles by performing a life cycle analysis (economic and environmental) in the Indian context. A Total Cost of Ownership (TCO) model is developed for financial analysis to depict the compatibility status of battery electric vehicles. The environmental analysis is conducted by using OpenLCA software based on ReCePi 2016 method for all the impact categories at mid-point as well as end-point levels. The results reckon electric vehicles are costlier than conventional vehicles with current statistics and policies in India. However, by implementing certain optimizing parameters in sensitivity analysis, electric vehicles are found to have cost parity and even become more economical than conventional vehicles in some cases. The outcomes from environmental analysis unveil that the GHG emissions from battery electric vehicles are less than that from conventional vehicles. However, out of the 18 impact categories considered, battery electric vehicles have less impact in 10 categories and even have less impact score at the end-point level.

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比较印度电池电动汽车和传统汽车的经济和环境兼容性

传统汽车燃料资源面临短缺的危险;最终加剧了燃料价格。这种高油价进一步提高了总拥有成本，并导致了国家能源安全的顿悟。此外，传统燃料燃烧产生的排放物促使人们有必要考虑已经不堪重负的环境问题。另外，由于没有尾气排放和低运营成本，电动汽车被视为传统汽车的潜在选择。然而，如果考虑到整个生命周期，电动汽车没有排放、成本更低的直觉假设可能是一种欺骗。因此，电动汽车作为传统汽车的一种选择的可行性需要在经济和环境方面进行考虑。本文通过在印度背景下进行生命周期分析(经济和环境)，介绍了电池电动汽车和传统汽车之间的比较。建立了用于财务分析的总拥有成本(TCO)模型来描述纯电动汽车的兼容性状况。环境分析采用OpenLCA软件，基于receii 2016方法，对中点和终点层面的所有影响类别进行环境分析。研究结果显示，根据印度目前的统计数据和政策，电动汽车比传统汽车更昂贵。然而，通过在灵敏度分析中实施一定的优化参数，发现电动汽车具有成本平价，甚至在某些情况下比传统汽车更具经济性。环境分析结果表明，纯电动汽车的温室气体排放量低于传统汽车。然而，在考虑的18个影响类别中，纯电动汽车在10个类别中影响较小，甚至在终点层面的影响得分更低。

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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ICMAME 2023 Conference Proceedings

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