The purpose of this thesis is to design and evaluate a Vienna rectifier for a 5 MW wind turbine with a PMSG, to estimate the efficiency and the maximum power extraction using this rectifier. Moreover, an objective is to choose the suitable power electronic switches for the rectifier.
In a previous master thesis , a pure simple diode rectifier with a PMSG for a 5MW wind turbine was investigated. The goal with using a diode rectifier was to transfer a high rectified voltage to transmit power over long distance with low power losses. The transmitted power is a function of according to, angle between voltages.
In order to estimate the efficiency and the maximum power of the rectifier’s generator that can be extracted, the power losses have to be calculated and suitable power electronic switches should be chosen. Finally, the results are to be compared with the performance of the diode rectifier and the conventional IGBT converter.
As described before, the Vienna rectifier has an ability to operate on a wide range of dc link voltages The results show that there is a possibility to extract 5 MW output power from the system at 9100 V dc where there is no need for compensation. The aim of this part is to calculate the size of the output capacitors for the Vienna rectifier.
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Traditionally, wind turbine systems have faced challenges associated with fluctuations in wind speed, leading to suboptimal power generation. The integration of the …
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Generally, the Vienna rectifier is applied to many applications with high switching frequency such as a power supply for an electronic system, especially for telecommunication …
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As seen, the three errors converge to zero after a short transient. 5. CONCLUSION An adaptive backstepping control has been developed for a wind power generating system …
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Abstract—Diode-rectifier-based high voltage dc (DR-HVdc) systems can be a promising low-cost solution for exporting wind power from remote offshore wind farms to onshore power systems. …
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Abstract An improved topology with a fault ride through (FRT) capability when subjected to a DC-link fault-based wind power plant (WPP) employing a Vienna active rectifier …
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83 countries around the world use wind power on the analysis presented cannot be extended to stand-alone systems; there is a need for study of wind energy as a principal …
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