Search results for "phase change materials"

showing 7 items of 7 documents

Analyses of phase change materials’ efficiency in warm-summer humid continental climate conditions

2017

The usage of phase change materials (PCMs) is a way to store excess energy pro- duced during the hot time of the day and release it during the night thereby reducing the overheating problem. While, in Latvian climate conditions overheating is not a big issue in traditional buildings since it happens only a couple of weeks per year air conditioners must still be installed to maintain thermal comfort. The need for cooling in recently built office buildings with large window area can increase signi cantly. It is therefore of great interest if the ther- mal comfort conditions can be maintained by PCMs alone or with reduced maximum power of installed cooling systems. Our initial studies show tha…

Humid continental climateEngineeringMeteorologyMaximum power principlebusiness.industry020209 energyMultiphysicsThermal comfort02 engineering and technology7. Clean energyPhase-change materialPhase changePhase change materials (PCM)13. Climate actionAir conditioning0202 electrical engineering electronic engineering information engineeringbusinessOverheating (electricity)Simulation
researchProduct

A numerical solution that determines the temperature field inside phase change materials: application in buildings

2013

The use of novel building materials that contain active thermal components would be a major advancement in achieving significant heating and cooling energy savings. In the last 40 years, Phase Change Materials or PCMs have been tested as thermal mass components in buildings, and most studies have found that PCMs enhance the building energy performance. The use of PCMs as an energy storage device is due to their relatively high fusion latent heat; during the melting and/or solidification phase, a PCM is capable of storing or releasing a large amount of energy. PCMs in a wall layer store solar energy during the warmer hours of the day and release it during the night, thereby decreasing and sh…

Building constructionSettore ING-IND/11 - Fisica Tecnica AmbientaleMaterials scienceFDMbusiness.industryStrategy and Managementthermal storageMechanical engineeringthermal storage phase change materials building materials FDMSolar energyThermal energy storageEnergy storagebuilding materialsphase change materialsLatent heatPhase (matter)ThermalThermal massbusinessSandwich-structured compositeTH1-9745Civil and Structural EngineeringJournal of Civil Engineering and Management
researchProduct

First-principles study of nitrogen doping in cubic and amorphous Ge2Sb2Te5

2011

We investigated the structural, electronic and vibrational properties of amorphous and cubic Ge(2)Sb(2)Te(5) doped with N at 4.2 at.% by means of large scale ab initio simulations. Nitrogen can be incorporated in molecular form in both the crystalline and amorphous phases at a moderate energy cost. In contrast, insertion of N in the atomic form is very energetically costly in the crystalline phase, though it is still possible in the amorphous phase. These results support the suggestion that N segregates at the grain boundaries during the crystallization of the amorphous phase, resulting in a reduction in size of the crystalline grains and an increased crystallization temperature.

ChemistryDopingAb initioCondensed Matter Physicslaw.inventionAmorphous solidCondensed Matter::Materials ScienceCrystallographyAmorphous carbonlawPhase (matter)PolyamorphismGeneral Materials ScienceGrain boundaryCrystallizationFIS/03 - FISICA DELLA MATERIAab-initio simulations phase change materialsJournal of Physics: Condensed Matter
researchProduct

PCM Thermal Energy Storage in Buildings: Experimental Study and Applications

2015

Abstract The study aims at analyzing the performance of Phase Change Materials (PCMs) in residential housing for different climates. This paper presents the results of an experiment performed in the Concordia University Solar Simulator and Environmental Chamber research facility (SSEC, Montreal, Canada). PCM boards were embedded on the back wall of a test hut placedin the climatic chamber. Several experiments were performed to explore the potential for verification of the proposed analysis and to produce enough data to perform model calibrations. Results show a strong increase in the apparent thermal inertia of the room allowing for a reduction in daily temperature fluctuations in the test …

EngineeringEmulationSettore ING-IND/11 - Fisica Tecnica AmbientaleMeteorologyThermal inertiabusiness.industryCold climateModel calibrationEnvironmental chamberThermal energy storagePhase-change materialsBuilding simulationMultiple layerEnergy(all)EnergyPlusPhase change materials modelling experiment energy plus parametric analysisThermal massSolar simulatorAerospace engineeringbusinessEnergy Procedia
researchProduct

BUILDING INTEGRATED PHASE CHANGE MATERIALS ENERGY STORAGE: EXPERIMENTAL STUDIES, MODELLING AND PARAMETRIC ANALYSIS

Settore ING-IND/11 - Fisica Tecnica AmbientalePhase change materials building simulation energy plus
researchProduct

Buildings integrated phase change materials: Modelling and validation of a novel tool for the energy performance analysis

2017

In this paper a novel dynamic energy performance simulation model for the Phase Change Materials (PCM) analysis is presented. The model is implemented in a suitable computer code, written in MatLab and called DETECt, for complete building energy analyses. In the presented model, the “effective specific heat” method is implemented. Here, the specific heat of each PCM layer changes as a function of the system phase and temperature in both melting and freezing processes. A model validation is carried out by comparing numerical results vs. measurements obtained at Solar Laboratory of Concordia University (Montreal, Canada). The simulation model allows exploring the potential of PCMs to increase…

PCMPhase change materials energy efficiency MatLab simulationSimulation ModelPhase Change MaterialMatLab
researchProduct

Phase Change Materials Applications to Optimize Cooling Performance of Buildings in the Mediterranean Area: A Parametric Analysis

2015

Abstract Building integrated thermal energy storage systems cover a wide range of techniques and solutions depending on technology applications and aims. They however all have in common the concept behind: being able to store energy for later use in order to reduce the time mismatch between energy availability and demand. In this context, Phase Change Materials (PCMs) fit the above description, since they would allow for mostly isothermal phase change within normal thermal comfort range. In order to face the typical challenges of the Mediterranean climate, the following concept was elaborated: the idea is to use the phase change mechanics as a substitute to the thermal inertia of massive wa…

EngineeringEnergy storageSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryMechanical engineeringThermal comfortNatural ventilationContext (language use)Thermal energy storagePhase change materialsEnergy PluEnergy storageBuilding simulationEnergy(all)Range (aeronautics)businessEnergy PlusEnergy (signal processing)Phase change materialEfficient energy useEnergy Procedia
researchProduct