论文信息 - An advanced double-layer combined windings transverse flux system for thin strip induction heating

An advanced double-layer combined windings transverse flux system for thin strip induction heating

A novel double-layer (DL) combined windings transverse flux induction heating (TFIH) system is used to address the inhomogeneous eddy current density problem which dominates the thermal distribution on the surface of work strips. The single-phase winding of a typical TFIH system is replaced by a double-layer combined one, which enables the magnetic fluxes generated by each phase to interact and complement each other to compensate for the weak magnetic areas that otherwise would generate more uniform and concentrated eddy current density and temperature distribution. In order to attain the performance of the proposed DL-TFIH system, an interpolative finite element analysis modeling method is introduced in this paper. Simulation results of the proposed systems are compared with a typical TFIH device.

[1] Weili Yan,et al. Eddy current and temperature field computation in transverse flux induction heating equipment for galvanizing line , 2001 .

[2] Junhua Wang,et al. A Novel Crossed Traveling Wave Induction Heating System and Finite Element Analysis of Eddy Current and Temperature Distributions , 2009, IEEE Transactions on Magnetics.

[3] F. Dughiero,et al. Comparison of edge effects of transverse flux and travelling wave induction heating inductors , 1999, IEEE International Magnetics Conference.

[4] Fabrizio Dughiero,et al. Travelling wave inductors for the continuous induction heating of metal strips , 1994, Proceedings of MELECON '94. Mediterranean Electrotechnical Conference.