期刊
JOURNAL OF ENGINEERING-JOE
卷 -, 期 16, 页码 3132-3134出版社
INST ENGINEERING TECHNOLOGY-IET
DOI: 10.1049/joe.2018.8451
关键词
failure (mechanical); invertors; power transmission control; HVDC power transmission; power transmission faults; commutation; failure analysis; relay protection; power transmission reliability; UHVDC commutation failure; UHVDC inverter side; inverter commutation failures; Taizhou UHVDC inverter; commutation failure stage; commutation failure recovery stage; commutation failure valve number; commutation failure process analysis; identification
资金
- Science and Technology Program of the State Grid Corporation of China (SGCC)
There may be a commutation failure during a fault or start-up of the UHVDC inverter side. The law of commutation failure process in UHVDC converter is studied here. First, the cause of inverter commutation failures is briefly introduced. Then, the general law for the bridge arm conduction of the inverter in the process of the commutation failure is revealed. Finally, the system debugging recorded data of some commutation failures of Taizhou UHVDC inverter in China is used to verify the law. Research shows that the commutation failure will go through three stages which has obvious features: (i) the commutation failure stage, (ii) the bypass circuit formation stage, and (iii) the commutation failure recovery stage. In the last stage, the AC currents of two conducted phases increase instantly in opposite directions, which are easy to recognise. In the second stage, only the DC current increases, and the AC currents equal 0 approximately. Because of the three stages, the commutation failure valve number is easily recognised. The study on the law of commutation failure process lay the foundation for commutation failure process analysis and identification for relay protection.
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