新型储能电池在轨验证平台设计  

Design of an In-Orbit Verification Platform for New Energy Storage Batteries

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作  者:刘亚利 白羽 陈彦如[1] 刘俊杰 江小标 LIU Yali;BAI Yu;CHEN Yanru;LIU Junjie;JIANG Xiaobiao(Shanghai Institute of Space Power-Sources,Shanghai 200245,China)

机构地区:[1]上海空间电源研究所,上海200245

出  处:《空间科学与试验学报》2025年第1期54-58,共5页Journal of Space Science and Experiment

摘  要:近年来,储能电池技术得到了突飞猛进的发展。作为空间飞行器的电力保障,其成熟度要求非常高。然而,由于技术的更新换代迅速,其难以在飞行器上获得充分的验证。空间站的顺利建成及稳定运营,为新型储能电池技术在轨应用验证研究提供了理想的平台。设计了一种新型储能电池在轨应用验证平台,包括锂离子蓄电池组1、锂离子蓄电池组2、充放电控制器和放电负载。通过两个蓄电池组相互充放的模式,可以同时验证两种储能电池技术,并实现能量的高效利用,仅需舱上补充充放电过程中少量的能量损耗。该平台将为储能电池新技术在空间飞行器上的更新换代提供有力支撑。Energy storage battery technology has been developed by leaps and bounds in recent years.As an electric guarantee for space vehicles,the maturity of energy storage batteries must be very high.However,rapid upgrading makes it unable to be fully verified on vehicles.The successful establishment and stable operation of the space station have provided a powerful platform for the in-orbit application verification research of new energy storage battery technologies.This article proposes a new in-orbit application verification for energy storage battery,including lithium-ion battery pack 1,lithium-ion battery pack 2,charge and discharge controller and discharge load.Using the mode of charging and discharging each other by two battery packs,two kinds of energy storage battery technologies can be verified at the same time,and the optimal use of energy can be achieved,only a small amount of energy loss needs to be supplemented by space station.The platform will provide a strong support for the replacement of the new energy storage battery technologies in the space vehicles.

关 键 词:空间飞行器 储能电池 在轨验证 相互充放电 

分 类 号:V45[一般工业技术—材料科学与工程]

 

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