A comparison has been made of the converter lifetime for a 3MW fully rated converter horizontal axis wind turbine located onshore and offshore. Simulated torque and speed of the turbine shaft were used to calculate voltage and current time series, that was used to calculate the junction temperatures of the diode and IGBT in the generator-side converter by a thermal-electrical model. A rainflow counting algorithm was applied to the junction temperature in combination with an empirical model of the lifetime estimation, to calculate the lifetime of the power electronic modules in the turbine. The number of parallel modules for each location to achieve 20 years life time has also been found. Simulations show the lifetime consumption rate of the...
Lifetime of wind turbine inverters is below expectations therefore, novel design and drive strategie...
Studies have shown that the reliability of fully rated converters (FRC) in permanent magnet synchr...
In the time of increasing power capacity of a single wind turbine, the wind power converter is consi...
A comparison has been made of the converter lifetime for a 3MW horizontal axis wind turbine for diff...
A comparison has been made of the converter lifetime for a 3MW fully rated converter horizontal axis...
Increased reliance upon renewable energy sources, chiefly wind, places a growing emphasis on the rel...
A comparison has been made of the power electronics lifetime for 5MW horizontal- and vertical-axis w...
Reliability is a critical criterion for multi-MW wind turbines, which are being employed with increa...
More and more wind turbine manufacturers turn to use the full-scale power electronics converter due ...
Reliability is a critical criterion for multi-MW wind turbines, which are being employed with incre...
Power converter reliability is critical for permanent magnet synchronous generator (PMSG) wind turbi...
As a key component in the wind turbine system, power electronic converter and its power semiconducto...
Renewable energy is developing rapidly and gaining more and more commercial viability. High reliabi...
Power converter reliability is critical for permanent magnet synchronous generator (PMSG) wind turb...
As the cost of wind energy becomes of increasing importance to the global surge of clean and green e...
Lifetime of wind turbine inverters is below expectations therefore, novel design and drive strategie...
Studies have shown that the reliability of fully rated converters (FRC) in permanent magnet synchr...
In the time of increasing power capacity of a single wind turbine, the wind power converter is consi...
A comparison has been made of the converter lifetime for a 3MW horizontal axis wind turbine for diff...
A comparison has been made of the converter lifetime for a 3MW fully rated converter horizontal axis...
Increased reliance upon renewable energy sources, chiefly wind, places a growing emphasis on the rel...
A comparison has been made of the power electronics lifetime for 5MW horizontal- and vertical-axis w...
Reliability is a critical criterion for multi-MW wind turbines, which are being employed with increa...
More and more wind turbine manufacturers turn to use the full-scale power electronics converter due ...
Reliability is a critical criterion for multi-MW wind turbines, which are being employed with incre...
Power converter reliability is critical for permanent magnet synchronous generator (PMSG) wind turbi...
As a key component in the wind turbine system, power electronic converter and its power semiconducto...
Renewable energy is developing rapidly and gaining more and more commercial viability. High reliabi...
Power converter reliability is critical for permanent magnet synchronous generator (PMSG) wind turb...
As the cost of wind energy becomes of increasing importance to the global surge of clean and green e...
Lifetime of wind turbine inverters is below expectations therefore, novel design and drive strategie...
Studies have shown that the reliability of fully rated converters (FRC) in permanent magnet synchr...
In the time of increasing power capacity of a single wind turbine, the wind power converter is consi...