Method for setting stirring position of internally-arranged electromagnetic stirrer of small square billet crystallizer
An electromagnetic stirrer and electromagnetic stirring technology, which is applied in the field of iron and steel smelting and continuous casting technology, can solve the problems of lack of theoretical guidance on flow field behavior, incorrect stirring position, and deterioration of stirring effect, etc.
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Embodiment 1
[0081] The method for formulating the stirring position of the built-in electromagnetic stirrer of the billet crystallizer, the specific steps are as follows:
[0082] (1) Establish a flow field model
[0083] (1.1) Numerical simulation of billet mold flow field without magnetic field
[0084] The flow field in the billet crystallizer is mainly turbulent flow. According to fluid mechanics, the main parameters to be considered in establishing the turbulent flow field model are the velocity of the fluid in the X, Y, and Z directions in the coordinate system and the turbulent flow of the fluid. Kinetic energy and turbulent pulsation dissipation rate, set the speed in the X, Y, Z directions to be expressed by u, v, w, the turbulent pulsation kinetic energy of the fluid is expressed by K, and the turbulent pulsation dissipation rate is expressed by It means that the above-mentioned main parameters need to be calculated on the basis of discretization equations, and the speed U(u, v,...
Embodiment 2
[0150] The method for formulating the stirring position of the built-in electromagnetic stirrer of the billet crystallizer, the specific steps are as follows:
[0151] (1) Establish a flow field model
[0152] (1.1) Numerical simulation of billet mold flow field without magnetic field
[0153] The flow field in the billet crystallizer is mainly turbulent flow. According to fluid mechanics, the main parameters to be considered in establishing the turbulent flow field model are the velocity of the fluid in the X, Y, and Z directions in the coordinate system and the turbulent flow of the fluid. Kinetic energy and turbulent pulsation dissipation rate, set the speed in the X, Y, Z directions to be expressed by u, v, w, the turbulent pulsation kinetic energy of the fluid is expressed by K, and the turbulent pulsation dissipation rate is expressed by It means that the above-mentioned main parameters need to be calculated on the basis of discretization equations, and the speed U(u, ...
Embodiment 3
[0219] The method for formulating the stirring position of the built-in electromagnetic stirrer of the billet crystallizer, the specific steps are as follows:
[0220] (1) Establish a flow field model
[0221] (1.1) Numerical simulation of billet mold flow field without magnetic field
[0222] The flow field in the billet crystallizer is mainly turbulent flow. According to fluid mechanics, the main parameters to be considered in establishing the turbulent flow field model are the velocity of the fluid in the X, Y, and Z directions in the coordinate system and the turbulent flow of the fluid. Kinetic energy and turbulent pulsation dissipation rate, set the speed in the X, Y, Z directions to be expressed by u, v, w, the turbulent pulsation kinetic energy of the fluid is expressed by K, and the turbulent pulsation dissipation rate is expressed by It means that the above-mentioned main parameters need to be calculated on the basis of discretization equations, and the speed U(u, ...
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