Cooling nozzles characteristics for numerical models of continuous casting

Abstract

Modelling the temperature fi eld of a continuously cast strand is an important tool for the process diagnostics. The main preconditions for numerical simulation of the temperature fi eld of the solidifying strand are correct boundary conditions, especially the surface condition in the secondary zone of the caster. The paper deals with techniques of determining the surface condition under cooling nozzles as well as their approximation and implementation into the model algorithm. Techniques used for laboratory measurements of both cold and hot spraying characteristics of water or water-air cooling nozzles are described. The relationship between the cold and hot characteristics was found. Implementation of such a dependence into the model algorithm reduces the duration and cost of laboratory measurements.