@ARTICLE{Wacławczyk_Tomasz_VERIFICATION_2018, author={Wacławczyk, Tomasz and Schäfer, Michael}, volume={vol. 39}, number={No 1}, journal={Chemical and Process Engineering}, howpublished={online}, year={2018}, publisher={Polish Academy of Sciences Committee of Chemical and Process Engineering}, abstract={The aim of the present work is to verify a numerical implementation of a binary fluid, heat conduction dominated solidification model with a novel semi-analytical solution to the heat diffusion equation. The semi-analytical solution put forward by Chakaraborty and Dutta (2002) is extended by taking into account variable in the mushy region solid/liquid mixture heat conduction coefficient. Subsequently, the range in which the extended semi-analytical solution can be used to verify numerical solutions is investigated and determined. It has been found that linearization introduced to analytically integrate the heat diffusion equation impairs its ability to predict solidus and liquidus line positions whenever the magnitude of latent heat of fusion exceeds a certain value.}, type={Artykuły / Articles}, title={VERIFICATION OF A BINARY FLUID SOLIDIFICATION MODEL USING SEMI-ANALITYCAL SOLUTION OF 1D HEAT DIFFUSION EQUATION}, URL={http://ochroma.man.poznan.pl/Content/103640/PDF/CPE-39-1-art_07_119101_7.pdf}, keywords={heat diffusion, semi-analytical solution, numerical methods, binary fluid solidification}, }