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Vitrification Conditions and Porosity Prediction of CO2 Blown Polystyrene Foams.
- 1.0484016 - ÚCHP 2018 RIV NL eng J - Journal Article
Sovová, Helena - Nistor, A. - Topiař, Martin - Kosek, J.
Vitrification Conditions and Porosity Prediction of CO2 Blown Polystyrene Foams.
Journal of Supercritical Fluids. Roč. 127, SEP 2017 (2017), s. 1-8. ISSN 0896-8446. E-ISSN 1872-8162.
[Iberoamerican Conference on Supercritical Fluids ProSCiba 2016 /4./. Vina del Mar, 28.03.2016-01.04.2016]
R&D Projects: GA ČR(CZ) GA14-18938S
Institutional support: RVO:67985858
Keywords : polymer foam * supercritical CO2 * heat transfer
OECD category: Chemical process engineering
Impact factor: 3.122, year: 2017
Experiments with CO2-blown hanging polystyrene (PS) films were carried out. The porosity of foams decreased with decreasing film thickness, indicating thus effects of heat and/or mass transfer. Taking into account the Joule-Thomson effect, mathematical model based on a simplified heat balance for the system PS+CO2 at the conditions of PS saturation with CO2 on one side and at the conditions of foam vitrification at glass transition temperature on the other side was derived to estimate the foam porosity. The model was applied to data on CO2-blown hanging films as well as literature data on foaming of PS particles. The trends of porosity dependence on saturation temperature and film thickness predicted by the model correspond to experimental results. The Joule-Thomson effect included in the modelling of the CO2 foaming process significantly affects the foam porosity and improves the predictive capabilities of simple model based on enthalpy balance and thermodynamic data.
Permanent Link: http://hdl.handle.net/11104/0279178
File Download Size Commentary Version Access 0484016.pdf 0 9 MB Author’s postprint open-access
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