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Design and Analysis of Transverse Wave Induction Heating


Affiliations
1 Department of Electrical and Electronics Engineering, Sri Manakula Vinayagar Engineering College, Pondicherry, India
     

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A transverse wave induction heating system with distributed windings and magnetic slot (TWIH) is proposed to address the in homogeneous eddy-current density problem which dominates the thermal distribution on the surface of work strips. Typical transverse wave induction heating (TWIH) system is replaced by the proposed one enabling the magnetic fluxes generated by each slot to interact and complement with each other and compensate for the weak magnetic areas so as to generate more uniform and concentrated eddy-current density to lead to more homogeneous temperature distribution. In order to realize the performance of the proposed TWIH system and its improved design, finite-element method (FEM) simulations are carried out and reported in this paper. Simulation results of the proposed system are compared with those of a traditional TWIH device and another design, which has distributed windings but without magnetic slot wedges.

Keywords

Eddy Current, Finite-Element Method, Magnetic Slot Wedges, Transverse Wave Induction.
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  • Design and Analysis of Transverse Wave Induction Heating

Abstract Views: 195  |  PDF Views: 4

Authors

B. Mahalakshmi
Department of Electrical and Electronics Engineering, Sri Manakula Vinayagar Engineering College, Pondicherry, India
Aswin Padmanabhan
Department of Electrical and Electronics Engineering, Sri Manakula Vinayagar Engineering College, Pondicherry, India
Sabari Harsh
Department of Electrical and Electronics Engineering, Sri Manakula Vinayagar Engineering College, Pondicherry, India

Abstract


A transverse wave induction heating system with distributed windings and magnetic slot (TWIH) is proposed to address the in homogeneous eddy-current density problem which dominates the thermal distribution on the surface of work strips. Typical transverse wave induction heating (TWIH) system is replaced by the proposed one enabling the magnetic fluxes generated by each slot to interact and complement with each other and compensate for the weak magnetic areas so as to generate more uniform and concentrated eddy-current density to lead to more homogeneous temperature distribution. In order to realize the performance of the proposed TWIH system and its improved design, finite-element method (FEM) simulations are carried out and reported in this paper. Simulation results of the proposed system are compared with those of a traditional TWIH device and another design, which has distributed windings but without magnetic slot wedges.

Keywords


Eddy Current, Finite-Element Method, Magnetic Slot Wedges, Transverse Wave Induction.