About Cost structure of wind power permanent magnet generator
The primary goal of this process is to design a high-performance and cost-efficient DD-PMSG by simultaneously optimizing four key characteristics: (1) specific power (power per weight), (2) power-per-cost, (3) efficiency, and (4) power factor.
The primary goal of this process is to design a high-performance and cost-efficient DD-PMSG by simultaneously optimizing four key characteristics: (1) specific power (power per weight), (2) power-per-cost, (3) efficiency, and (4) power factor.
A research on producing economical technology for low-cost smart wind turbine has been reported in [15]. The research focusses on reducing the cost of the wind turbine’s direct-driven PMSG, especially when costly magnets are used. Four different models are constructed, namely structural model, magnetic model, electrical model, and losses model.
The cost of NdFeB magnets affect the cost of energy of the surface mounted generator which tested with different cost €40/kg, €60/kg and €80/kg. The ferrite magnet generator being better when the NdFeB magnet price rises to €80/kg.
Permanent magnet generators for wind turbines designs are highlighted. Dynamics and vibration problems of permanent magnet generators covered in literature are presented. The application of the Finite Element Method for mechanical problems solution in the field of permanent magnet generators is discussed.
The idea consists of considering a simple structure of the wind turbine using direct-drive permanent magnet synchronous generator (DDPMSG). DDPMSGs are the most useful machines in the wind energy field thanks to several advantages, such as elimination of noise and maintenance cost due to suppression of the gearbox and absence of the rotor .
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6 FAQs about [Cost structure of wind power permanent magnet generator]
Can permanent magnet generators be used for wind turbines?
Permanent magnet generators for wind turbines designs are highlighted. Dynamics and vibration problems of permanent magnet generators covered in literature are presented. The application of the Finite Element Method for mechanical problems solution in the field of permanent magnet generators is discussed. 3.1.
Do permanent magnet generators have a mechanical design?
Permanent magnet generators can be considered as complex machines and for this reason their mechanical design can be an antiviral task. Many scientific papers deal with design aspects and peculiarities of permanent magnet generators. This section highlights general methods and aspects of permanent magnet generators mechanical design. 3.1.
Is direct drive permanent magnet synchronous generator a critical component of a simplified wind turbine?
Conclusions In a context related to the production of economical technologies of small wind turbines, the design integrated by optimization of a direct drive permanent magnet synchronous generator was treated in this article as being one of the critical components of a simplified small wind turbine.
What is a high-power permanent-magnet synchronous generator (PMSG)?
This paper presents analysis, design, and optimization of a high-power permanent-magnet synchronous generator (PMSG). This generator is introduced in a large-scale wind turbine which can be used in a big wind farm. This generator is used in gearless configuration.
How to choose a wind turbine generator?
Among others is the design of the wind turbine generator. The desired generator should be small and light weight but such design always leads to a tradeoff in the output power aspect , . Permanent Magnet Synchronous Generator (PMSG) and Doubly Fed Induction Generator (DFIG) are most commonly used in wind turbine.
Can a surface-mounted permanent magnet synchronous generator reduce cogging torque?
A surface-mounted permanent magnet synchronous generator used in low-power wind turbines is designed and optimized to reduce the cogging torque [ 27 ]. An optimal design of a coreless axial permanent magnet synchronous generator is treated with the swarm optimization method to reduce the active material cost of the generator [ 28 ].
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