Title :
High-speed synchronous reluctance machine with minimized rotor losses
Author :
Hofmann, Heath ; Sanders, Seth R.
Abstract :
This paper presents a refined design of a high-speed synchronous reluctance machine with minimized eddy-current losses in the rotor. Design criteria are the ability of the rotor to withstand high speeds, ability to operate in vacuum, negligible zero-torque spinning losses, high reliability, high efficiency, and low manufacturing cost. The rotor of the synchronous reluctance machine consists of bonded sections of ferromagnetic and nonmagnetic steels. Finite-element code, incorporating rotor rotation, has been developed in MATLAB that calculates steady-state eddy currents (and losses) in the rotor. A stator iron and stator winding have been designed to minimize rotor losses, and two such prototype machines have been fabricated. Experimental results show an efficiency of 91% at a 10 kW 10000 r/min operating point, and rotor losses less than 0.5% of input power
Keywords :
eddy current losses; finite element analysis; machine theory; reliability; reluctance machines; rotors; stators; 10 kW; 91 percent; MATLAB; bonded sections; ferromagnetic steels; finite-element code; high efficiency; high reliability; high-speed synchronous reluctance machine; low manufacturing cost; minimized eddy-current losses; minimized rotor losses; nonmagnetic steels; rotor rotation; stator iron; stator winding; steady-state eddy currents; zero-torque spinning losses; Bonding; Costs; Finite element methods; MATLAB; Manufacturing; Refining; Reluctance machines; Spinning; Steady-state; Steel;
Journal_Title :
Industry Applications, IEEE Transactions on
