Title :
In-mold electromagnetic stirring in continuous casting
Author :
Fujisaki, Keisuke
Author_Institution :
Plant Eng. Technol. Center, Nippon Steel Corp., Chiba, Japan
Abstract :
To get the optimal operation of in-mold electromagnetic stirring through the fundamental characteristics, a three-dimensional magnetohydrodynamic calculation model was used, taking into consideration heat transfer and solidification as well as free surface. Comparison between measured velocity and calculated velocity is in agreement. A shadow method that calculates electromagnetic force in consideration of free surface transition is proposed to reduce computing time and maintain sufficient accuracy. A calculated free surface of mercury under a 200-Hz magnetic field shows an adequate agreement with the experimental one. Calculation results applied to the continuous casting process taking into consideration heat transfer and solidification are in good agreement with operation data. This model shows that electromagnetic stirring makes the solidified shell uniform and dynamic deviation of temperature stable
Keywords :
casting; electromagnetic devices; electromagnetic forces; heat transfer; magnetic fields; magnetohydrodynamics; metallurgical industries; optimal control; process control; solidification; 200 Hz; computing time; continuous casting process; electromagnetic force; free surface transition; heat transfer; in-mold electromagnetic stirring; optimal operation; shadow method; solidification; three-dimensional magnetohydrodynamic calculation model; Casting; Electromagnetic forces; Electromagnetic heating; Electromagnetic measurements; Electromagnetic modeling; Heat transfer; Magnetic field measurement; Magnetohydrodynamics; Solid modeling; Velocity measurement;
Journal_Title :
Industry Applications, IEEE Transactions on
