Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1791274 | Journal of Crystal Growth | 2013 | 4 Pages |
A heat transfer model of a semi-industrial furnace has been build, using a 3D FEM model in order to analyze the crystallization phase of a multi-crystalline square ingot. In the modeling of the solidification process heat transfer phenomena, such as radiation and conduction in the furnace have been taken into account. Results from crystallization experiments are used for the calibration and validation of the model. Subsequently, the model was used to test different insulating materials and analyze their effect on temperature gradients in the ingot, shape of the solid–liquid interface and the overall crystallization time.
► 3D unsteady simulation of mc-Si solidification in a semi-industrial furnace. ► Experimental validation on the basis of temperature measurements. ► Reduced s–l interface deflection due to improvement of the furnace insulation.