Hybrid Energy Storage and Generator Control Monitoring Systems for Renewable Farms and its Applications
Keywords:
AC, Hybrid, DC, Electric power distribution systems, Renewable EnergyAbstract
The interaction of offshore wind with the VSC-HVDC system may cause broadband oscillations, threatening the safety and stability of offshore wind power integration. This paper proposes a broadband oscillation monitoring system suitable for offshore wind power in light of the lack of detection ability of broadband oscillation, lack of processing ability of non-stationary signals, and difficulty in real-time to meet the monitoring needs of existing measurement technologies, builds a key technical system, and establishes a mathematical model based on local mean decomposition. Finally, the broadband monitoring system's hardware architecture was designed, providing technical assistance for making maximum use of offshore wind energy resources and achieving "carbon compliance and More electric aircraft are becoming the development trend in the aviation military industry, as high-power density generators and battery performance increase. Directed energy weapons efficiently increase the technical and tactical performance of the equipment at the tactical level. The pulsed power electronic loads, on the other hand, create greater demands on the stability of independent electric power distribution systems (EPDSs). This research focuses on the voltage stability of a 270 V high-voltage DC power system and offers a hybrid power storage classification base on droop management and a brushless DC motor smoothing technique that delivers a superior smoothing effect under high peak-to-average ratio pulsed power loads. The PLECS simulation model simulation results verify the efficiency of the suggested combined control strategy in improving the stability of the aircraft's EPDS with different loads.
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