摘要
为满足军事任务中各类用电的需求,提出一种军用独立型光储柴微电网模态转换控制策略。基于军用独立型光储柴微电网的结构特点,通过分析系统运行中功率平衡关系与实际任务需要,根据微源运行特性与战斗进程结合,对负荷等级进行划分,拟定13种工作模态与模态转换判定依据,并建立光储柴微网系统综合仿真模型进行分析。验证结果表明:该策略在各类工况中能够完成各个模态的转换与稳定运行,提升了微电网系统的适用性与可靠性。
In order to meet the needs of all kinds of power consumption in military tasks,a mode transition control strategy for military independent optical diesel storage micro grid is proposed.Based on the structural characteristics of military independent optical diesel storage micro grid,through analyzing the power balance relationship and actual task needs in the system operation,according to the combination of micro source operation characteristics and combat process,the load level is divided,13 working modes and mode transition judgment basis are designed,and the comprehensive simulation model of optical diesel storage micro grid system is established for analysis.The verification results show that the strategy can complete the transformation and stable operation of each mode in various conditions,and can improve the applicability and reliability of micro grid system.
作者
高明宇
刘金宁
冯长江
Gao Mingyu;Liu Jinning;Feng Changjiang(Department of Vehicle&Electrical Engineering,Shijiazhuang Campus of PLA University of Army Engineering,Shijiazhuang 050003,China)
出处
《兵工自动化》
2021年第6期1-7,共7页
Ordnance Industry Automation
基金
国家自然科学基金(51307184)。
关键词
微电网
控制策略
平战转换
模态转换
仿真
micro grid
control strategy
transition from peacetime to wartime
mode transition
simulation
