If only one phase is defined, the simulation may: Fail to converge due to undefined properties in the missing phase. Produce physically incorrect results, as the solver lacks the required data for the other phase. Defining both phases ensures the solver can handle these complexities and deliver accurate results.
@@FrontiersInCFD thank you for responding , one last thing I didn't get is why u set the PCM as liquid in the cell zone conditions when it's supposed to be solid at first?
thanks for video.
Glad it was helpful
Can you explain why we are defining both the liquid and the solid material for the PCM?
If only one phase is defined, the simulation may:
Fail to converge due to undefined properties in the missing phase.
Produce physically incorrect results, as the solver lacks the required data for the other phase. Defining both phases ensures the solver can handle these complexities and deliver accurate results.
@@FrontiersInCFD thank you for responding , one last thing I didn't get is why u set the PCM as liquid in the cell zone conditions when it's supposed to be solid at first?
In wall boundary condition solids are already present hence
If I share an article, can you analyze it?
yes
@FrontiersInCFD thanks
Link is not add
Lithium-ion battery thermal management system using MWCNT-based nanofluid flowing through parallel distributed channels: An experimental investigation
Lithium-ion battery thermal management system using MWCNT-based nanofluid flowing through parallel distributed channels: An experimental investigation