期刊
IEEE TRANSACTIONS ON POWER ELECTRONICS
卷 38, 期 3, 页码 3812-3823出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TPEL.2022.3225209
关键词
Circuit faults; HVDC transmission; Wind power generation; Circuit breakers; Inverters; Power system reliability; Fault currents; DC line fault; HVDC transmission system; modular multilevel converters (MMC); system switching
This article introduces a multicircuit HVDC system that can localize dc line faults without using dc circuit breakers. The conventional fault clearing method can cause wind power plants to shutdown and restart, resulting in power supply suspension. This suspension may affect the balance of supply and demand, and cause frequency drop in the onshore ac power system. To solve this problem, the article proposes a system switching method that allows continuous operation of wind power plants during dc line faults. The proposed method uses a half-bridge modular multilevel converter to clear the faults while keeping the wind power plants running. This method ensures continuous operation of wind power plants and reduces transmission outage to 0.2 s, significantly improving supply reliability. Experimental results validate the effectiveness of the proposed method.
This article focuses on a multicircuit HVDC system which can localize the dc line fault without dc circuit breakers. The conventional fault clearing method causes the shutdown and the restart of the wind power plants, which results in the suspension of the power supply. The suspension may affect the balance of supply and demand, and may cause frequency drop in the onshore ac power system. To solve the problem, this article proposes a system switching method to enable the continuous operation of the wind power plants under the dc line fault. The proposed method utilizes the half-bridge modular multilevel converter to clear the fault while keeping the wind power plants operating. As a result, the proposed method realizes the continuous operation of wind power plants and shorten the transmission outage to 0.2 s. Thus, it greatly increases the supply reliability. Experimental results demonstrate the validity of the proposed method.
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