电池(电)
备份
计算机科学
荷电状态
可再生能源
储能
锂离子电池
汽车工程
电气工程
工程类
功率(物理)
物理
量子力学
数据库
作者
Talal Mouais,Saeed Mian Qaisar
标识
DOI:10.1002/9781119872146.ch2
摘要
One of the significant drawbacks of renewable energy sources, such as solar and wind, is their intermittent pattern of functioning. One promising method to overcome this limitation is to use a battery pack to enable renewable energy generation to be stored until required. Batteries are known for their high commercial potential, fast response time, modularity, and flexible installation. Therefore, they are a very attractive option for renewable energy storage, peak shaving during intensive grid loads, and a backup system for controlling the voltage drops in the energy grid. The lithium-ion (Li-Ion) is considered one of the most promising battery technologies. It has a high energy density, fair performance-to-cost ratio, and long life compared to its counterparts. With an evolved deployment of Li-Ion batteries, the latest trend is to investigate the opportunities of fast Li-Ion battery charging protocols. The aim is to attain around the 70-80% State of Charge (SoC) within a few minutes. However, fast charging is a challenging approach. The cathode particle monitoring and electrolyte transportation limitations are the major bottlenecks in this regard. Additionally, sophisticated process control mechanisms are necessary to avoid overcharging, which can cause a rapid diminishing in the battery capacity and life. This chapter mainly focuses on an important aspect of realizing the effective and fast-charging protocols of Li-Ion batteries. It presents a comprehensive survey on the advancement of fast-charging battery materials and protocols. Additionally, the state-of-the-art approaches of optimizing the configurations of concurrent fast-charging protocols to maximize the Li-Ion batteries life cycle are also presented.
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