| 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. |
| Key words: Fractional frequency transmission system, offshore wind power, reliability assessment, environmental impact. |
| DOI:10.23919/PCMP.2023.000285 |
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| Fund:This work is supported by the Project “Research on Power Frequency System Planning Methods Considering the Interactive Influence of Fractional Frequency Transmission System”(No. 030400KK52220025). |
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