A REAL-WORLD ENERGY AND COST COMPARISON BETWEEN AN ELECTRIC VEHICLE AND A PETROL VEHICLE IN THE TRINIDAD AND TOBAGO CONTEXT

Proceedings of the International Conference on Emerging Trends in Engineering & Technology (IConETech-2020) Pub Date : 1900-01-01 DOI:10.47412/anep5378

B. Maharaj, G. King

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引用次数: 2

Abstract

This paper compares actual and predicted energy use and running costs for an internal combustion engine vehicle (ICE) and an electric vehicle (EV) in typical Trinidad and Tobago driving conditions. Detailed fuel/energy flow data were extracted to parameterise and validate representative MATLAB/Simulink models of each. Simulations were performed using a representative driving cycle as an input for both vehicle models and parameters such as fuel flow rate and rate of energy transfer were recorded. Energy used by the EV over the driving cycle was approximately 20% of that used by the ICE. The analysis was extended to consider the Well to Wheel energy use and CO2 emissions by combining the model results with published data, showing that both energy and CO2 emissions from the EV are approximately 50% of those produced by the ICE. Further, it was estimated based on the findings that if 10% of the vehicle fleet was displaced by EVs, this would provide a 9% contribution to the Trinidad and Tobago Paris Agreement Nationally Determined Contribution (NDC) for transportation by 2030. This could be significantly increased if renewable generating sources were to be added to the electrical grid.

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在特立尼达和多巴哥的背景下，电动汽车和汽油汽车在现实世界中的能源和成本比较

本文比较了内燃机汽车(ICE)和电动汽车(EV)在特立尼达和多巴哥典型驾驶条件下的实际和预测能源使用和运行成本。提取详细的燃料/能量流数据，以参数化和验证具有代表性的MATLAB/Simulink模型。以一个典型的驾驶循环作为车辆模型的输入进行仿真，并记录燃油流量和能量传递率等参数。电动汽车在整个行驶周期中使用的能源约为内燃机的20%。通过将模型结果与公开数据相结合，将分析扩展到考虑井到车轮的能源使用和二氧化碳排放，结果表明，电动汽车产生的能源和二氧化碳排放量约为内燃机产生的能源和二氧化碳排放量的50%。此外，根据研究结果估计，如果10%的车辆被电动汽车取代，到2030年，这将为特立尼达和多巴哥巴黎协定的国家自主贡献(NDC)交通贡献9%。如果将可再生能源加入电网，这一数字可能会显著增加。

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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Proceedings of the International Conference on Emerging Trends in Engineering & Technology (IConETech-2020)

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