| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 262679 | Energy and Buildings | 2014 | 6 Pages |
•Storage capabilities of an alveolar floor filled with a composite PCM is investigated.•Heat transfer of a slab submitted to temperature cyclic conditions was studied.•An annular repartition for different percentages of PCM was investigated.•An indicator allows an evaluation of the “active” part of PCM during the thermal cycle.•The optimal amount of PCM has been determined with the analysis of the indicator.
Implementation of phase change materials (PCMs) into building components allows their thermal performance to be enhanced, reducing indoor temperature fluctuations and improving the occupant comfort. A practical problem to solve is the possibility of leakage when the PCM is under the liquid state. In this study, a new component using PCMs is described. This component derives from an existing slab having cylindrical cavities which is used in floors/ceilings. The cavities are filled with a polymer–paraffin composite and leaks are avoided, due to, both the use of the composite and the insertion inside cavities.This study is based on numerical simulations whose results are compared to experimental ones with the same boundary conditions in order to validate the model. The PCM was introduced inside the cavities with an annular repartition and different percentages. A new indicator was introduced (PCM activity) that allows an evaluation of the amount of PCM to be used in such a component. With this indicator the optimal percentage of PCM has been determined.
