Foam process models

Autor: Thomas A. Baer, Lisa Ann Mondy, Douglas Brian Adolf, Harry K. Moffat, Rekha Ranjana Rao, David R. Noble
Rok vydání: 2008
Předmět:
DOI: 10.2172/942055
Popis: In this report, we summarize our work on developing a production level foam processing computational model suitable for predicting the self-expansion of foam in complex geometries. The model is based on a finite element representation of the equations of motion, with the movement of the free surface represented using the level set method, and has been implemented in SIERRA/ARIA. An empirically based time- and temperature-dependent density model is used to encapsulate the complex physics of foam nucleation and growth in a numerically tractable model. The change in density with time is at the heart of the foam self-expansion as it creates the motion of the foam. This continuum-level model uses an homogenized description of foam, which does not include the gas explicitly. Results from the model are compared to temperature-instrumented flow visualization experiments giving the location of the foam front as a function of time for our EFAR model system.
Databáze: OpenAIRE