并联式混合动力汽车最小油耗估算的GRAB-ECO

Jianning Zhao, A. Sciarretta, L. Eriksson
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引用次数: 1

摘要

混合动力系统作为道路交通领域降低油耗和二氧化碳排放的一种很有前景的解决方案,面临着最小油耗评估的复杂控制技术,特别是动力系统设计初期设计参数优化的计算时间过长。在这项工作中,开发了一种新颖而简单的基于图形分析的燃料能耗优化方法(grabeco),用于估计轻型和重型并联混合动力传动系统的最小燃料消耗。根据动力系统的功率需求与最有效的发动机功率之间的功率比,GRAB-ECO通过将工作点转移到最有效的条件下,或通过将发动机从低效率工作点消除到纯电动汽车工作来最大化内燃机的平均工作效率。找到一个满足电池最终能量状态要求的转折点,即本研究的电量保持模式。在轻型和重型并联混合动力汽车上进行了测试,并在最小油耗和计算时间方面进行了验证。结果表明,无论轻型还是重型并联混合动力系统,grabeco都能精确地逼近最小油耗,误差小于6%。同时,与基于pmp (Pontryagin最小原理)的方法相比,GRAB-ECO减少了数量级的计算时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
GRAB-ECO for Minimal Fuel Consumption Estimation of Parallel Hybrid Electric Vehicles
As a promising solution to the reduction of fuel consumption and CO2 emissions in road transport sector, hybrid electric powertrains are confronted with complex control techniques for the evaluation of the minimal fuel consumption, particularly the excessively long computation time of the design-parameter optimization in the powertrain's early design stage. In this work, a novel and simple GRaphical-Analysis-Based method of fuel Energy Consumption Optimization (GRAB-ECO) is developed to estimate the minimal fuel consumption for parallel hybrid electric powertrains in light- and heavy-duty application. Based on the power ratio between powertrain's power demand and the most efficient engine power, GRAB-ECO maximizes the average operating efficiency of the internal combustion engine by shifting operating points to the most efficient conditions, or by eliminating the engine operation from poorly efficient operating points to pure electric vehicle operation. A turning point is found to meet the requirement of the final state of energy of the battery, which is charge-sustaining mode in this study. The GRAB-ECO was tested with both light- and heavy-duty parallel hybrid electric vehicles, and validated in terms of the minimal fuel consumption and the computation time. Results show that GRAB-ECO accurately approximates the minimal fuel consumption with less than 6% of errors for both light- and heavy-duty parallel hybrid electric powertrains. Meanwhile, GRAB-ECO reduces computation time by orders of magnitude compared with PMP-based (Pontryagin's Minimum Principle) approaches.
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