Title :
Analysis of Semipermeable Containment Sleeve Technology for High-Speed Permanent Magnet Machines
Author :
Yon, Jason M. ; Mellor, Phil H. ; Wrobel, Rafal ; Booker, Julian D. ; Burrow, Stephen G.
Author_Institution :
Fac. of Eng., Univ. of Bristol, Bristol, UK
Abstract :
This paper presents an alternative permanent magnet rotor containment technology. The use of a semipermeable material in a laminated structure is shown to result in a significant improvement in magnetic loading for a given thickness of containment compared to the use of magnetically inert materials such as carbon fiber or Inconel, while minimizing eddy current losses in the containment layer. An analytical model is presented for determining the air-gap field delivered from a permanent magnet array with a semipermeable containment. The analysis is validated through finite element analysis. The fabrication of a prototype machine is detailed and the results presented show good agreement with the analysis. The validated modeling process is used to assess the potential of the new technology.
Keywords :
air gaps; carbon fibres; chromium alloys; eddy current losses; finite element analysis; iron alloys; nickel alloys; permanent magnet machines; permeability; rotors; Inconel; air gap; carbon fiber; eddy current losses; finite element analysis; high speed permanent magnet machines; laminated structure; magnetic loading; magnetically inert materials; permanent magnet array; permanent magnet rotor containment technology; semipermeable containment sleeve technology; Arrays; Harmonic analysis; Magnetization; Magnetomechanical effects; Materials; Permeability; Rotors; Brushless permanent magnet (PM) machines; high-speed machines; magnetic loading; rotor containment;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2012.2202232
