TY - GEN
T1 - Low rotating loss 2-pole radial magnetic bearing biased with permanent magnet
AU - Wang, Xi
AU - Fang, Jiancheng
AU - Wei, Tong
AU - Tang, Enqiong
AU - Fan, Yahong
AU - Han, Bangcheng
AU - Wang, Chune
PY - 2011
Y1 - 2011
N2 - A new structure of radial magnetic bearing biased with permanent magnet (RPMB), so called 2-pole RPMB is proposed. Based on the original idea, the reduction of flux fluctuation frequency in rotor core to reduce the rotating loss of conventional 4-pole RPMB, 2-pole RPMB has similar structure except the pole-number, which is only half. Based on the measurement of material alternating-loss of rotor core, it is estimated that 2-pole RPMB could reduce rotating loss more than half than 4-pole contrast. To verify the effect on loss reduction, the experiment was carried out based on two magnetically suspended flywheels for energy storage and attitude control on satellite, equipped with 2-pole RPMB prototypes and 4-pole contrast respectively. It has shown that 2-pole RPMB reduced rotating loss by more than 0.85W at the normal speed 30000rpm on both radial and axial supporting statuses, i.e. 14% of flywheel run-down loss with 4-pole RPMB without losses separation. Though the current stiffness of 2-pole RPMB prototype is 23% less, it reduced the total losses because copper loss is small originally due to permanent magnet bias field. Further, during the high speed and large power applications, the loss reduction of 2-pole RPMB would be more meaningful.
AB - A new structure of radial magnetic bearing biased with permanent magnet (RPMB), so called 2-pole RPMB is proposed. Based on the original idea, the reduction of flux fluctuation frequency in rotor core to reduce the rotating loss of conventional 4-pole RPMB, 2-pole RPMB has similar structure except the pole-number, which is only half. Based on the measurement of material alternating-loss of rotor core, it is estimated that 2-pole RPMB could reduce rotating loss more than half than 4-pole contrast. To verify the effect on loss reduction, the experiment was carried out based on two magnetically suspended flywheels for energy storage and attitude control on satellite, equipped with 2-pole RPMB prototypes and 4-pole contrast respectively. It has shown that 2-pole RPMB reduced rotating loss by more than 0.85W at the normal speed 30000rpm on both radial and axial supporting statuses, i.e. 14% of flywheel run-down loss with 4-pole RPMB without losses separation. Though the current stiffness of 2-pole RPMB prototype is 23% less, it reduced the total losses because copper loss is small originally due to permanent magnet bias field. Further, during the high speed and large power applications, the loss reduction of 2-pole RPMB would be more meaningful.
KW - Flywheel
KW - Homopolar
KW - permanent magnet biased
KW - radial magnetic bearing
KW - rotating loss
UR - https://www.scopus.com/pages/publications/80051893871
U2 - 10.1109/CSAE.2011.5952629
DO - 10.1109/CSAE.2011.5952629
M3 - 会议稿件
AN - SCOPUS:80051893871
SN - 9781424487257
T3 - Proceedings - 2011 IEEE International Conference on Computer Science and Automation Engineering, CSAE 2011
SP - 35
EP - 39
BT - Proceedings - 2011 IEEE International Conference on Computer Science and Automation Engineering, CSAE 2011
T2 - 2011 IEEE International Conference on Computer Science and Automation Engineering, CSAE 2011
Y2 - 10 June 2011 through 12 June 2011
ER -