本文对一种船载大功率电池仓系统的设计和应用进行研究。首先确定电池仓系统原理性架构,再分别对其中的电池组模块、控制模块和充电逆变模块进行详细设计。重点介绍电池组设计、控制系统设计、消防系统设计,以及电池柜集成设计方法。本文在电池仓样机试装运行后,对该电池仓的应用经济性进行评估分析。该船载大功率电池仓的研发和应用具有一定的示范意义和推广价值,也为传统船舶的新能源技术应用研究提供了参考。
This paper presents the design and application of a ship-borne high-power battery bin system. Firstly, it begins with an overview of the principle architecture of battery bin system, and then the battery module, control module and charging inverter module are designed in detail. This paper mainly introduces battery selection, control system design, fire control system design, and battery cabinet integrated design method. In this paper, the application economy of the battery bin is evaluated and analyzed after the trial operation of the battery bin prototype. The research and development and application of the high power battery bin on board has certain demonstration significance and popularization value, and also provides a reference for the application research of new energy technology in traditional ships.
2021,43(9): 152-155 收稿日期:2021-03-18
DOI:10.3404/j.issn.1672-7649.2021.09.030
分类号:U665.14
基金项目:国电南瑞科技股份有限公司科技项目资助(524608190103)
作者简介:杨飞(1975-),男,硕士,高级工程师,主要研究方向为电气设计、热设计和结构设计
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