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Modelling and suppression of bearing voltage of wind turbine permanent magnet synchronous generators

The problem of bearing current is common in wind power generation system, which leads to the attenuation of generator life and great economic losses. Bearing voltage of a 5.5 MW wind‐turbine permanent magnet synchronous generator is studied. The bearing voltage equivalent circuit is modelled by stud...

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Published in:	IET electric power applications 2024-04, Vol.18 (4), p.436-445
Main Authors:	Jia, Lei, Liu, Ruifang, Li, Zhihao, Li, Shulin, Huang, Xin
Format:	Article
Language:	English
Subjects:	bearing voltage common mode circuit permanent magnet syncronous generators PWM power converters wind turbines
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container_title	IET electric power applications
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creator	Jia, Lei Liu, Ruifang Li, Zhihao Li, Shulin Huang, Xin
description	The problem of bearing current is common in wind power generation system, which leads to the attenuation of generator life and great economic losses. Bearing voltage of a 5.5 MW wind‐turbine permanent magnet synchronous generator is studied. The bearing voltage equivalent circuit is modelled by studying the internal system structure of the generator, and an extraction method of cable parameters, generator winding parameters and stray capacitance parameters based on experiments is proposed to simulate the system. A system test platform is built to test the common mode voltage, common mode current and bearing voltage, and the test results are compared with the simulation results in time domain and frequency domain. The result indicate that the common mode equivalent model can accurately simulate the actual bearing voltage. Finally, rotor flange insulation is adopted to suppress bearing voltage. The relationship between the design of rotor flange insulation with suppressing effect is discussed. Finally, an optimisation design method is presented for the proposed suppression scheme. The bearing voltage problem of a 5.5 MW wind power permanent magnet generator is studied, the equivalent circuit is built up and a bearing voltage test platform was constructed to measure the common mode voltage, common mode current and bearing voltage. Based on the common mode equivalent model, the authors put forward a suppression strategy for installing rotor flange insulation.
doi_str_mv	10.1049/elp2.12403
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Bearing voltage of a 5.5 MW wind‐turbine permanent magnet synchronous generator is studied. The bearing voltage equivalent circuit is modelled by studying the internal system structure of the generator, and an extraction method of cable parameters, generator winding parameters and stray capacitance parameters based on experiments is proposed to simulate the system. A system test platform is built to test the common mode voltage, common mode current and bearing voltage, and the test results are compared with the simulation results in time domain and frequency domain. The result indicate that the common mode equivalent model can accurately simulate the actual bearing voltage. Finally, rotor flange insulation is adopted to suppress bearing voltage. The relationship between the design of rotor flange insulation with suppressing effect is discussed. Finally, an optimisation design method is presented for the proposed suppression scheme. The bearing voltage problem of a 5.5 MW wind power permanent magnet generator is studied, the equivalent circuit is built up and a bearing voltage test platform was constructed to measure the common mode voltage, common mode current and bearing voltage. 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The bearing voltage problem of a 5.5 MW wind power permanent magnet generator is studied, the equivalent circuit is built up and a bearing voltage test platform was constructed to measure the common mode voltage, common mode current and bearing voltage. 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Bearing voltage of a 5.5 MW wind‐turbine permanent magnet synchronous generator is studied. The bearing voltage equivalent circuit is modelled by studying the internal system structure of the generator, and an extraction method of cable parameters, generator winding parameters and stray capacitance parameters based on experiments is proposed to simulate the system. A system test platform is built to test the common mode voltage, common mode current and bearing voltage, and the test results are compared with the simulation results in time domain and frequency domain. The result indicate that the common mode equivalent model can accurately simulate the actual bearing voltage. Finally, rotor flange insulation is adopted to suppress bearing voltage. The relationship between the design of rotor flange insulation with suppressing effect is discussed. Finally, an optimisation design method is presented for the proposed suppression scheme. The bearing voltage problem of a 5.5 MW wind power permanent magnet generator is studied, the equivalent circuit is built up and a bearing voltage test platform was constructed to measure the common mode voltage, common mode current and bearing voltage. Based on the common mode equivalent model, the authors put forward a suppression strategy for installing rotor flange insulation.</abstract><pub>Wiley</pub><doi>10.1049/elp2.12403</doi><tpages>10</tpages><orcidid>https://orcid.org/0009-0003-4118-9938</orcidid><orcidid>https://orcid.org/0000-0002-4240-8149</orcidid><orcidid>https://orcid.org/0000-0003-1801-6759</orcidid><oa>free_for_read</oa></addata></record>
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issn	1751-8660 1751-8679
language	eng
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source	IET Digital Library - eJournals; Wiley_OA刊
subjects	bearing voltage common mode circuit permanent magnet syncronous generators PWM power converters wind turbines
title	Modelling and suppression of bearing voltage of wind turbine permanent magnet synchronous generators
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