An Optimal Energetic Approach for Systemic Design of Hybrid Powertrain

机译：混合动力总成系统设计的一种最佳能量方法

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On-going oil stock depletion and growing environmental concerns lead automakers to develop more efficient powertrains. Today, the most promising way forward consists in research on hybrid systems. Defining the most efficient powertrain requires a systemic design. In this paper, three main levers are used: powertrain architecture, energy management and electric components design. Different powertrain architectures (series, parallel and combined) are compared: their optimal energetic performances are calculated for different INRETS driving cycles by using dynamic programming as an optimal control strategy. The most promising hybrid powertrain is the parallel one. Its behavior is more closely analyzed so as to provide technical specifications for an optimal sizing of the electric components: electric machine and battery.

机译：持续的石油库存枯竭和对环境的日益关注促使汽车制造商开发更高效的动力总成。如今，最有希望的前进方向在于对混合动力系统的研究。定义最有效的动力总成需要系统的设计。在本文中，使用了三个主要杠杆：动力总成架构，能源管理和电气组件设计。比较了不同的动力总成架构（串联，并联和组合）：通过使用动态编程作为最佳控制策略，针对不同的INRETS行驶周期计算出它们的最佳能量性能。最有前途的混合动力总成是并联动力总成。对其行为进行了更仔细的分析，以便为优化电气部件（电机和电池）的尺寸提供技术规范。

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《IEEE Vehicle Power and Propulsion Conference》|2014年|1-6|共6页
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Roy Francis; Ossart Florence; Marchand Claude;
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automobile industry; battery powered vehicles; dynamic programming; energy management systems; hybrid electric vehicles; optimal control; power transmission (mechanical); INRETS; automakers; dynamic programming; electric battery; electric components; electric components design; electric machine; energy management; hybrid powertrain; hybrid systems; on-going oil stock depletion; optimal control strategy; optimal energetic approach; optimal energetic performances; optimal sizing; powertrain architecture; systemic design; technical specifications; Batteries; Electric machines; Fuels; Hybrid electric vehicles; Ice; Mechanical power transmission;

机译：汽车工业;电动汽车;动态编程;能源管理系统;混合动力电动汽车;最优控制;动力传输（机械）; INRETS;汽车制造商;动态编程;电池;电气部件;电气部件设计;电机;能源管理;混合动力总成;混合动力系统;持续的油耗;最优控制策略;最优能量方法;最优能量性能;最优选型;动力总成体系结构;系统设计;技术规格;电池;电机;燃料;混合动力汽车;冰;机械动力传递;
入库时间 2022-08-26 13:48:15

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2. Integration of On-Line Control in Optimal Design of Multimode Power-Split Hybrid Electric Vehicle Powertrains [J] . Anselma Pier Giuseppe, Huo Yi, Roeleveld Joel, IEEE Transactions on Vehicular Technology . 2019,第4期

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3. OPTIMAL DESIGN OF THREE-PLANETARY-GEAR POWER-SPLIT HYBRID POWERTRAINS [J] . Zhuang W., Zhang X., Zhao D., International Journal of Automotive Technology . 2016,第2期

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4. An Optimal Energetic Approach for Systemic Design of Hybrid Powertrain [C] . Roy Francis, Ossart Florence, Marchand Claude IEEE Vehicle Power and Propulsion Conference . 2014

机译：混合动力系系统设计的最佳精力充沛途径
5. Optimally-personalized Hybrid Electric Vehicle Powertrain Control [D] . Zeng, Xiangrui 2016

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An Optimal Energetic Approach for Systemic Design of Hybrid Powertrain

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