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Experimental assessment of energy storage in microencapsulated paraffin . . . This study aims to evaluate the sensible and latent energy accumulation in cement mortars by incorporating microencapsulated phase change materials (10–20% by weight) as a substitute for fine aggregates The experimental investigation involved density measurements, differential scanning calorimetry (DSC) analysis, and accumulated energy tests
Synthesis and properties of microencapsulated paraffin composites with . . . In this paper, the synthesis and properties of microencapsulated paraffin composites with SiO 2 shell are reported In the microencapsulated composites, paraffin was used as the latent heat storage material, and SiO 2 served as the inorganic shell material The paraffin is a favorable organic PCM for thermal energy storage, melting at 59 26 °C with a latent heat of 189 24 kJ kg and
Thermophysical characterization of paraffin-based PCMs for low . . . This paper aims to assess the key thermophysical properties of ten paraffin-based PCMs: microencapsulated and bulk paraffins The melting solidification peak temperatures, the enthalpy of fusion solidification and the specific heat capacity were measured by Modulated-Differential-Scanning-Calorimetry
A comprehensive study of properties of paraffin phase change materials . . . The PCMs investigated include three pure alkanes, nonadecane, eicosane, docosane, and three commercial blends of paraffin waxes For each PCM, we accurately determined Tmpt, the latent heat of fusion, the density of the solid phase and the temperature dependences of the heat capacity and thermal conductivity
Performance of latent heat storage (LHS) systems using pure paraffin . . . The performance of shell and tube type device is evaluated using COMSOL®4 3a software The results revealed that the paraffin wax, as a Phase Change Material (PCM), charges more quickly (25% faster) as compared to discharge The PCM with a latent heat of 168 kJ kg, was found suitable for effective heat storage and does not undergo sub-cooling
Enhancing efficiency and sustainability: Utilizing high energy density . . . The results showed that producing these PCM emulsions using a high-energy manufacturing method with surfactant achieved superior dispersion stability and uniform size distribution throughout PCM emulsions Among the pristine PCMs, n-Eicosane exhibited the highest latent heat of 252 7 kJ kg during the melting process