电压降
可调度发电
适应性
控制理论(社会学)
光伏系统
理论(学习稳定性)
微电网
工程类
电力系统
功率(物理)
分段
计算机科学
数学优化
分布式发电
可再生能源
电压
数学
控制(管理)
电气工程
电压调节器
物理
量子力学
人工智能
机器学习
生物
数学分析
生态学
作者
Yugeswar Reddy O,J Jithendranath,Ajoy Kumar Chakraborty,Josep M. Guerrero
出处
期刊:IEEE Transactions on Power Delivery
[Institute of Electrical and Electronics Engineers]
日期:2023-08-01
卷期号:38 (4): 2673-2681
被引量:11
标识
DOI:10.1109/tpwrd.2023.3253623
摘要
Operation and control dynamics of islanded DC microgrids (DC mGs) have received enormous interest recently in distribution system management. In this regard, research concern on droop-controlled distributed generations (DGs) integrated within the standalone DC mG is becoming more profound. This paper proposes an optimal operation of droop-controlled standalone DC mG with combined small-signal stability and economic-environment-related objectives. The proposed approach optimizes the principal eigenvalue that affects the system stability and two other objectives. An eigen value-based stability analysis for network configurations, with the possibility of its buses solely connected to either dispatchable DG or constant power load (CPL), is proposed. Moreover, uncertainties involved in mG network variables that originate due to the integration of solar PV generation with load consumption were considered and modelled with relevant probability characterization. A recent swarm-based intelligent technique (dragonfly algorithm) for optimization of droop parameters is adopted in the proposed approach. A unique bi/tri – objective combinations are solved, and obtained results are discussed. To show the adaptability of the proposed approach for any given DC mG network, a standalone 6-bus mG was adopted to verify the applicability. Furthermore, the time-domain simulations were carried out on a sample 3-bus DC mG to validate the proposed strategy.
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