LiBAT: A High-Performance AC Battery System for Transport Applications

Q2 Engineering
Designs Pub Date : 2023-06-12 DOI:10.3390/designs7030074
Alejandro Cárdenas Miranda, Jan Dahlhaus, O. Dordevic, J. Eckhardt, Victor Faessler, Jean-Marc Le-Peuvedic, P. Riley, Josef Wasner
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引用次数: 0

Abstract

The paper proposes a novel battery design for high-performance transport applications that is immersion-cooled and switched by a multi-level inverter. Advantages of the proposed AC battery design in terms of weight, modularity, scalability, performance, reliability and safety are presented. To demonstrate the applicability of the design, an electrically powered glider use case is addressed. The derived battery system is evaluated by means of theoretical analysis, simulation and prototyping. Simulations showed that the used multi-level inverter (MLI) power electronics modules could successfully run the motor without additional power electronics and charge batteries from a 110 V AC source. The prototype implementation with a motor-driven propeller demonstrated power levels of up to 3.3 kW, with a behavior in accordance with simulations. Guidelines to further advance the technology readiness level including control strategies and hardware design were derived to overcome limitations in the prototype realization that could not be addressed within the project budget. Finally, research topics to evaluate additional performance metrics such as efficiency and aging behavior are suggested.
LiBAT:用于运输应用的高性能交流电池系统
本文提出了一种用于高性能传输应用的新型电池设计,该电池采用浸入式冷却和多级逆变器开关。提出了交流电池设计在重量、模块化、可扩展性、性能、可靠性和安全性等方面的优势。为了证明该设计的适用性,本文讨论了一个电动滑翔机用例。通过理论分析、仿真和原型设计等方法对该电池系统进行了评价。仿真表明,所使用的多级逆变器(MLI)电力电子模块可以在没有额外电力电子设备的情况下成功运行电机,并通过110 V交流电源为电池充电。采用电机驱动螺旋桨的原型机的功率水平高达3.3 kW,其性能与仿真结果一致。进一步提高技术准备水平的指导方针包括控制策略和硬件设计,以克服原型实现中无法在项目预算中解决的限制。最后,提出了评估其他性能指标(如效率和老化行为)的研究课题。
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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来源期刊
Designs
Designs Engineering-Engineering (miscellaneous)
CiteScore
3.90
自引率
0.00%
发文量
0
审稿时长
11 weeks
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