Brushless Exciter Based on Nanomaterials for 1 MVA HTSC Wind Power Alternator

Lidia Chubraeva; Evgeniy Evseev; Sergei Timofeyev; Michail Turubanov; Dimitry Volkov; Sergei Soleniy

doi:10.4028/www.scientific.net/MSF.856.38

Paper Titles

Dynamic Interfacial Phenomena at Water-Magnetic Fluid System Subject to Alternating Magnetic Field
p.15

Vibrating Properties of a Magnetic-Fluid Tuned Liquid Column Damper with Different U-Pipes
p.21

Characteristics in the Opening and Closing Operations of Micro Magnetic Fluid Diaphragm Mechanism by Alternating Magnetic Field
p.26

Processing of Bulk MgB₂ Superconductors for Application in Fault Current Limiters
p.32

Brushless Exciter Based on Nanomaterials for 1 MVA HTSC Wind Power Alternator
p.38

Amorphous Alloy Cores for HTSC Electrical Devices
p.44

New Developments of Mesoscopic Materials of Nano-Scale Particles for Optical and Dielectric Applications
p.53

Generalized Thin-Wire Hybrid VFETD/FDTD Schemes for Nanocomposite and Graphene Applications
p.58

Shockwave Response of Polymer and Polymer Nanocomposites
p.64

HomeMaterials Science ForumMaterials Science Forum Vol. 856Brushless Exciter Based on Nanomaterials for 1 MVA...

Brushless Exciter Based on Nanomaterials for 1 MVA HTSC Wind Power Alternator

Abstract:

The paper is devoted to testing of a brushless exciter intended for a 1 MVA high-temperature superconductive (HTSC) synchronous generator. It was decided to make a ambient-temperature version on the 1-st stage with a latter transaction to a cryogenically-cooled version. The exciter incorporates a number of nanomaterials: rare-earth Nd-Fe-B magnets and magnetic cores, manufactured of amorphous alloy tape.

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Periodical:

Materials Science Forum (Volume 856)

Pages:

38-43

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.856.38

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Online since:

May 2016

Authors:

Lidia Chubraeva*, Evgeniy Evseev, Sergei Timofeyev, Michail Turubanov, Dimitry Volkov, Sergei Soleniy

Keywords:

Amorphous Alloy, Brushless Exciter, Electrical Devices, Generators, High-Temperature Superconductivity, Synchronous Motor, Wind Power Alternator

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References

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