Computational modeling of freezing of supercooled water using phase-field front propagation with immersed points (CROSBI ID 247269)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Berberović, Edin ; Schremb, Markus ; Tuković, Željko ; Jakirlić, Suad ; Tropea, Cameron
engleski
Computational modeling of freezing of supercooled water using phase-field front propagation with immersed points
Computational modeling of phase change due to solidification, besides correctly capturing the heat transfer, requires accurate evaluation of mass transfer at the phase-interface. In the present study a framework is developed for modeling the solidification of supercooled water using a phase-field approach for the propagation of the interface between ice and supercooled water. Energy equations in the solid and liquid phases are decoupled at the interface by using immersed points to impose the melting temperature as a moving boundary condition. The propagation of the interface is determined by the local energy balance across the interface, which is accounted for in the reconstructed interface points. The model is validated using the known theoretical solutions for the two-phase Stefan problem. An extension of the model to incorporate conjugate heat transfer with a neighboring solid wall is presented, establishing a framework that can be used for further modeling of the interaction of solidifying supercooled water on a solid substrate.
Supercooled water ; Freezing process ; Phase-field method ; Thermal diffusion model Three-phase contact point
nije evidentirano
nije evidentirano
nije evidentirano
nije evidentirano
nije evidentirano
nije evidentirano
Podaci o izdanju
99
2018.
329-346
objavljeno
0301-9322
1879-3533
10.1016/j.ijmultiphaseflow.2017.11.005