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Current Li-Ion Battery Technologies in Electric Vehicles and Opportunities for Advancements

机译：电动车辆的当前锂离子电池技术以及进步的机会

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摘要

Over the past several decades, the number of electric vehicles (EVs) has continued to increase. Projections estimate that worldwide, more than 125 million EVs will be on the road by 2030. At the heart of these advanced vehicles is the lithium-ion (Li-ion) battery which provides the required energy storage. This paper presents and compares key components of Li-ion batteries and describes associated battery management systems, as well as approaches to improve the overall battery efficiency, capacity, and lifespan. Material and thermal characteristics are identified as critical to battery performance. The positive and negative electrode materials, electrolytes and the physical implementation of Li-ion batteries are discussed. In addition, current research on novel high energy density batteries is presented, as well as opportunities to repurpose and recycle the batteries.

机译：在过去的几十年中，电动车辆数量（EVS）持续增加。预测估计在全球范围内，超过1.25亿台EV将在2030年到达道路。在这些先进的车辆的心脏上，是锂离子（锂离子）电池，提供所需的能量储存。本文介绍并比较了锂离子电池的关键部件，并描述了相关的电池管理系统，以及提高整体电池效率，容量和寿命的方法。识别材料和热特性对电池性能至关重要。讨论了正极材料，电解质和锂离子电池的物理实施。此外，提出了目前关于新型高能量密度电池的研究，以及能够重新卷积和再循环电池的机会。

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Yu Miao; Patrick Hynan; Annette von Jouanne; Alexandre Yokochi;
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年度 2019
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正文语种 eng
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专利

1. Battery management system with active inrush current control for Li-ion battery in light electric vehicles [J] . Fuengwarodsakul Nisai H. Electrical engineering . 2016,第1期

机译：轻型电动汽车的锂离子电池具有主动浪涌电流控制的电池管理系统
2. A Stackable, 6-Cell, Li-Ion, Battery Management IC for Electric Vehicles With 13, 12-bit $SigmaDelta$ ADCs, Cell Balancing, and Direct-Connect Current-Mode Communications [J] . IEEE Journal of Solid-State Circuits . 2014,第4期

机译：适用于电动汽车的可堆叠，6节锂离子电池管理IC，具有13个，12位$ SigmaDelta $ ADC，电池平衡和直接连接电流模式通信
3. Consistency and robustness of forecasting for emerging technologies: The case of Li-ion batteries for electric vehicles [J] . Sakti Apurba, Azevedo Ines M. L., Fuchs Erica R. H., Energy Policy . 2017,第JULa期

机译：新兴技术的预测的一致性和可靠性：以电动汽车用锂离子电池为例
4. Exploring the Opportunity Space For High-Power Li-Ion Batteries in Next-Generation 48V Mild Hybrid Electric Vehicles [C] . Aziz Abdellahi, Saeed Khaleghi Rahimian, Berislav Blizanac, SAE World Congress Experience . 2017

机译：在下一代48V温和混合电动车中探索高功率锂离子电池的机遇空间
5. Low-temperature operation of li-ion batteries for hybrid and electric vehicles. [D] . Ji, Yan. 2014

机译：混合动力和电动汽车锂离子电池的低温运行。
6. A Method to Simultaneously Detect the Current Sensor Fault and Estimate the State of Energy for Batteries in Electric Vehicles [O] . Jun Xu, Jing Wang, Shiying Li, 2016

机译：同时检测电流传感器故障并估算电动汽车电池能量状态的方法
7. Implementation of Hardware-in-the-Loop Based Platform for Real-time Battery State of Charge Estimation on Li-Ion Batteries of Electric Vehicles using Multilayer Perceptron [O] . Suleyman Ceven 2020

机译：基于硬件基于循环的循环平台的电池估计的电动车辆电气车辆电池的实时电池估算平台
8. Battery Wear from Disparate Duty-Cycles: Opportunities for Electric Drive Vehicle Battery Health Management. [R] . Smith, K., Earleywing, M., Wood, E., 2012

机译：不同工作循环的电池磨损：电动汽车电池健康管理的机会。

Current Li-Ion Battery Technologies in Electric Vehicles and Opportunities for Advancements

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