C. Amaral scite author profile

The aim of this study was to enhance the thermal comfort properties of crude glycerol (CG) derived polyurethane foams (PUFs) using phase change materials (PCMs) (2.5–10.0% (wt/wt)) to contribute to the reduction of the use of non-renewable resources and increase energy savings. The main challenge when adding PCM to PUFs is to combine the low conductivity of PUFs whilst taking advantage of the heat released/absorbed by PCMs to achieve efficient thermal regulation. The solution considered to overcome this limitation was to use expandable graphite (EG) (0.50–1.50% (wt/wt)). The results obtained show that the use of PCMs increased the heterogeneity of the foams cellular structure and that the incorporation of PCMs and EG increased the stiffness of the ensuing composite PUFs acting as filler-reinforcing materials. However, these fillers also caused a substantial increase of the thermal conductivity and density of the ensuing foams which limited their thermal energy storage. Therefore, numerical simulations were carried using a single layer panel and the thermal and physical properties measured to evaluate the behavior of a composite PUF panel with different compositions, and guide future formulations to attain more effective results in respect to temperature buffering and temperature peak delay.

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Development of polyurethane foam incorporating phase change material for thermal energy storage

Amaral¹,

Pinto²,

Silva³

et al. 2020

Journal of Energy Storage

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C. Amaral

Phase change materials and carbon nanostructures for thermal energy storage: A literature review

Polyurethane foams with microencapsulated phase change material: Comparative analysis of thermal conductivity characterization approaches

Thermal performance of a window shutter containing PCM: Numerical validation and experimental analysis

Thermal Energy Storage and Mechanical Performance of Crude Glycerol Polyurethane Composite Foams Containing Phase Change Materials and Expandable Graphite

Development of polyurethane foam incorporating phase change material for thermal energy storage

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