基于模型设计的纯电动汽车动力总成尺寸与性能评价

Hardik Nagar, Shwetanshu, Shivika Bisaria, A. Dalei, Gade Chandrasekar Reddy, W. Sultana, A. Chitra
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引用次数: 1

摘要

设计任何车辆都需要进行繁琐的计算,以估计各种参数,如燃油经济性,车辆动力学,变速器设计,电机尺寸及其控制策略,电机映射,电池尺寸,并最终确定最有效车辆性能的最佳值。在手边计算所有这些值可能会导致大量因素的错误、假设和近似。因此,有必要有一个基于模型的设计来提供对这些参数的精确洞察。模型的动力学可以包括在内,以便了解车辆如何对动态环境作出反应。纵向模拟为给定的驱动循环提供了有关电池和电机尺寸的信息。本项目旨在开发这样一个系统,并在3个标准驱动循环中进行测试,以确定合适的电机规格和电池配置,以满足驱动循环的节能和高质量性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Powertrain Sizing and Performance Evaluation for Battery Electric Vehicle Using Model Based Design
Designing any vehicle requires tedious calculations in order to estimate various parameters such as fuel economy, vehicle dynamics, transmission design, motor sizing with its control strategy, motor mapping, battery sizing and finally determining the optimal values for the most efficient vehicle performance. Calculating all these values on hand can result in errors, assumptions and approximation of substantial factors. Hence, it is necessary to have a Model-Based Design that provides precise insight into these parameters. The dynamics of the model can be included in order to understand how the vehicle reacts to a dynamic environment. Longitudinal simulation offers information about battery and motor sizing for a given drive cycle. This project aims to develop such a system and test it with 3 standard drive cycles to establish the appropriate motor specifications and battery configuration for the drive cycle to be met for fuel-efficient and high-caliber performance.
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