Affiliation:
1. Southwest Jiaotong University
Abstract
For the high temperature superconducting (HTS) magnetic levitation (Maglev) test vehicle
in china, the present NdFeB PMG has the symmetrical magnetic field distribution on the upper and
lower surface. However, the vehicle only utilizes its upper magnetic field. 50% PMG magnetic field
energy goes to waste, so the onboard HTSC arrays haven’t reached the best levitation performance. In
order to make the HTS/PMG maglev system more efficient and reasonable, a new HTS/PMG Maglev
design has been proposed based on the present PMG and the Halbach array PMG, whose PMG is
called as hybrid PMG. Firstly, three magnetic field distributions of three kinds of PMG are compared
using FEM. It is found that the magnetic field distribution of the hybrid PMG is more efficient for the
HTSC’s maglev. The concentrating upper surface magnetic field is stronger to improve the load
capability of the system. Numerical analysis and experiment are close for the present HTS/PMG
system. More calculation shows that the bulk YBaCuO HTSC with the hybrid PMG has significantly
better levitation performance than that with the other two PMGs. The usage of the onboard HTSC
arrays is improved much and the load capability of the HTS/PMG Maglev vehicle is upgraded with
the hybrid PMG.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
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