. . "An in-house 3D numerical model is capable of simulating the temperature field of a slab caster. The 3D numerical model simulating the temperature field of a concast slab is used for optimization secondary cooling, casting speed, superheat temperature etc. The temperature field in the concasting is determined via the transient 3D enthalpy balance equation with the Finite Difference Method, which is optimised for running on multiprocessor computers. The model presented here serves for optimal set parameters of the casting speed and cooling strategy inside the slab caster." . "\u0160t\u011Btina, Josef" . "RIV/00216305:26210/08:PU75372!RIV10-GA0-26210___" . . "3D numerical models of continuously casting steel" . "[66CF120B6C21]" . "Z\u00E1pado\u010Desk\u00E1 univerzitav v Plzni" . . . . "3D numerical models of continuously casting steel"@en . . . "Sborn\u00EDk mezin\u00E1rodn\u00ED konference XXVII. Setk\u00E1n\u00ED kateder mechaniky tekutin a termomechaniky" . . "978-80-7043-666-0" . "Kavi\u010Dka, Franti\u0161ek" . "Sekanina, Bohumil" . . "P(GA106/08/0606)" . . . "RIV/00216305:26210/08:PU75372" . "Plze\u0148" . . "Plze\u0148" . "An in-house 3D numerical model is capable of simulating the temperature field of a slab caster. The 3D numerical model simulating the temperature field of a concast slab is used for optimization secondary cooling, casting speed, superheat temperature etc. The temperature field in the concasting is determined via the transient 3D enthalpy balance equation with the Finite Difference Method, which is optimised for running on multiprocessor computers. The model presented here serves for optimal set parameters of the casting speed and cooling strategy inside the slab caster."@en . "Solidification, Casting steel, Numerical model, Heat and mass transfer"@en . "3D numerical models of continuously casting steel"@en . . "2008-06-24+02:00"^^ . "3D numerical models of continuously casting steel" . "407646" . "3"^^ . . . "3"^^ . "6"^^ . . . "26210" . .