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Comprehensive Reliability Analysis of Fractional Frequency Offshore Wind Power Systems Considering Environmental Impact and Overall Structure: A Case Study in China

Zhongqi Cai, Chengxiao Wei, Sui Peng, Xiuli Wang

2024Protection and Control of Modern Power Systems12 citationsDOI

Abstract

The rapid expansion of offshore wind power plays a crucial role in China's pursuit of its ‘dual carbon goals’. Fractional frequency transmission, an emerging technology for delivering large-scale offshore wind power, currently lacks extensive research attention. This paper addresses this gap by proposing a reliability assessment model for fractional frequency systems, encompassing generation, boosting, transmission, and conversion processes. Additionally, the study conducts a quantitative analysis of severe weather impacts on offshore component maintenance. With a focus on China's offshore wind power development, the research includes comparative analyses of various offshore regions, system topologies, and transmission methods to evaluate system reliability. This comprehensive analysis serves as a valuable reference for the strategic planning and large-scale deployment of grid-connected offshore wind power systems.

Topics & Concepts

Reliability (semiconductor)Offshore wind powerChinaSubmarine pipelineEnvironmental scienceMarine engineeringEnvironmental impact assessmentWind powerEngineeringPower (physics)GeographyGeotechnical engineeringPhysicsElectrical engineeringEcologyArchaeologyQuantum mechanicsBiologyWave and Wind Energy SystemsHVDC Systems and Fault ProtectionWind Turbine Control Systems
Comprehensive Reliability Analysis of Fractional Frequency Offshore Wind Power Systems Considering Environmental Impact and Overall Structure: A Case Study in China | Litcius