Exploring the Causes of Power-Converter Failure in Wind Turbines based on Comprehensive Field-Data and Damage Analysis
Power converters are among the most frequently failing components of wind turbines. Despite their massive economic impact, the actual causes and mechanisms underlying these failures have remained in the dark for many years. In view of this situation, a large consortium of three research institutes a...
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MDPI AG
2019-02-01
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| Series: | Energies |
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| Online Access: | https://www.mdpi.com/1996-1073/12/4/593 |
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doaj-2cdcbf1916d6402c81be3f9f0d92f04a2020-11-25T01:13:40ZengMDPI AGEnergies1996-10732019-02-0112459310.3390/en12040593en12040593Exploring the Causes of Power-Converter Failure in Wind Turbines based on Comprehensive Field-Data and Damage AnalysisKatharina Fischer0Karoline Pelka1Sebastian Puls2Max-Hermann Poech3Axel Mertens4Arne Bartschat5Bernd Tegtmeier6Christian Broer7Jan Wenske8Fraunhofer Institute for Wind Energy Systems (Fraunhofer IWES), 30159 Hannover, GermanyFraunhofer Institute for Wind Energy Systems (Fraunhofer IWES), 30159 Hannover, GermanyFraunhofer Institute for Silicon Technology (Fraunhofer ISIT), 25524 Itzehoe, GermanyFraunhofer Institute for Silicon Technology (Fraunhofer ISIT), 25524 Itzehoe, GermanyInstitute for Drive Systems and Power Electronics IAL, Leibniz University Hannover, 30167 Hannover, GermanyFraunhofer Institute for Wind Energy Systems (Fraunhofer IWES), 30159 Hannover, GermanyFraunhofer Institute for Wind Energy Systems (Fraunhofer IWES), 30159 Hannover, GermanyFraunhofer Institute for Wind Energy Systems (Fraunhofer IWES), 30159 Hannover, GermanyFraunhofer Institute for Wind Energy Systems (Fraunhofer IWES), 30159 Hannover, GermanyPower converters are among the most frequently failing components of wind turbines. Despite their massive economic impact, the actual causes and mechanisms underlying these failures have remained in the dark for many years. In view of this situation, a large consortium of three research institutes and 16 companies, including wind-turbine and component manufacturers, operators and maintenance-service providers has joined forces to identify the main causes and driving factors of the power-converter failures in wind turbines to create a basis for effective remedial measures. The present paper summarizes and discusses the results of this research initiative, which have been achieved through the evaluation of converter-specific failure and operating data of a large and diverse worldwide wind-turbine fleet, field measurements as well as post-mortem investigation of returned converter components. A key conclusion of the work is that the thermal-cycling induced fatigue of bond-chip contacts and die-attach solder, which is a known issue in other fields of power-electronics applications and which has been widely assumed to be the principle damage mechanisms also in wind turbines, is no relevant contributor to the observed converter failures in this application. Instead, the results indicate that environmental factors such as humidity and contamination but also design and quality issues as well as human errors play an important part in the incidence of these failures.https://www.mdpi.com/1996-1073/12/4/593reliabilitypower electronicspower converterwind powerroot-cause analysispost-mortem analysisfield data |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Katharina Fischer Karoline Pelka Sebastian Puls Max-Hermann Poech Axel Mertens Arne Bartschat Bernd Tegtmeier Christian Broer Jan Wenske |
| spellingShingle |
Katharina Fischer Karoline Pelka Sebastian Puls Max-Hermann Poech Axel Mertens Arne Bartschat Bernd Tegtmeier Christian Broer Jan Wenske Exploring the Causes of Power-Converter Failure in Wind Turbines based on Comprehensive Field-Data and Damage Analysis Energies reliability power electronics power converter wind power root-cause analysis post-mortem analysis field data |
| author_facet |
Katharina Fischer Karoline Pelka Sebastian Puls Max-Hermann Poech Axel Mertens Arne Bartschat Bernd Tegtmeier Christian Broer Jan Wenske |
| author_sort |
Katharina Fischer |
| title |
Exploring the Causes of Power-Converter Failure in Wind Turbines based on Comprehensive Field-Data and Damage Analysis |
| title_short |
Exploring the Causes of Power-Converter Failure in Wind Turbines based on Comprehensive Field-Data and Damage Analysis |
| title_full |
Exploring the Causes of Power-Converter Failure in Wind Turbines based on Comprehensive Field-Data and Damage Analysis |
| title_fullStr |
Exploring the Causes of Power-Converter Failure in Wind Turbines based on Comprehensive Field-Data and Damage Analysis |
| title_full_unstemmed |
Exploring the Causes of Power-Converter Failure in Wind Turbines based on Comprehensive Field-Data and Damage Analysis |
| title_sort |
exploring the causes of power-converter failure in wind turbines based on comprehensive field-data and damage analysis |
| publisher |
MDPI AG |
| series |
Energies |
| issn |
1996-1073 |
| publishDate |
2019-02-01 |
| description |
Power converters are among the most frequently failing components of wind turbines. Despite their massive economic impact, the actual causes and mechanisms underlying these failures have remained in the dark for many years. In view of this situation, a large consortium of three research institutes and 16 companies, including wind-turbine and component manufacturers, operators and maintenance-service providers has joined forces to identify the main causes and driving factors of the power-converter failures in wind turbines to create a basis for effective remedial measures. The present paper summarizes and discusses the results of this research initiative, which have been achieved through the evaluation of converter-specific failure and operating data of a large and diverse worldwide wind-turbine fleet, field measurements as well as post-mortem investigation of returned converter components. A key conclusion of the work is that the thermal-cycling induced fatigue of bond-chip contacts and die-attach solder, which is a known issue in other fields of power-electronics applications and which has been widely assumed to be the principle damage mechanisms also in wind turbines, is no relevant contributor to the observed converter failures in this application. Instead, the results indicate that environmental factors such as humidity and contamination but also design and quality issues as well as human errors play an important part in the incidence of these failures. |
| topic |
reliability power electronics power converter wind power root-cause analysis post-mortem analysis field data |
| url |
https://www.mdpi.com/1996-1073/12/4/593 |
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