Solar wall enhanced with phase-change materials: a detailed numerical simulation study

The use of phase-change materials (PCM) to improve the performance of conventional solar walls (SWs) has been recently proposed. A holistic analysis of the thermal and energy performance of a PCM-enhanced SW is performed by employing numerical simulations on two different physical scales. Initially,...

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Published inAdvances in Building Energy Research (ABER) Vol. 11; no. 1; pp. 87 - 103
Main Authors Kolaitis, Dionysios I., Founti, Maria A.
Format Journal Article Book Review
LanguageEnglish
Published London Taylor & Francis 02.01.2017
Taylor & Francis Ltd
Subjects
Building materials
Buildings
computational fluid dynamics
Computer simulation
emissions
Energy conservation
Energy consumption
Energy efficiency
energy performance
energy savings
Fluid dynamics
Inlets
Mathematical models
numerical simulation
Parameters
PCM
Simulation
Solar energy
Solar wall
Trombe wall
Walls
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Summary:The use of phase-change materials (PCM) to improve the performance of conventional solar walls (SWs) has been recently proposed. A holistic analysis of the thermal and energy performance of a PCM-enhanced SW is performed by employing numerical simulations on two different physical scales. Initially, a computational fluid dynamics tool is used to investigate the thermal behaviour of a SW, by varying a range of operational parameters such as height, width, inlet air temperature, inlet air velocity and incident solar radiation. Predictions of air velocity and temperature distributions in the air cavity are used to determine the impact of each operational parameter. Furthermore, a building energy performance simulation tool is employed to provide a realistic estimation of the energy savings when a PCM-enhanced SW is used. A reference apartment is used to compare the energy demand and energy consumption 'before' and 'after' the installation of a conventional and a PCM-enhanced SW. A range of parameters, such as climatic conditions or U-values of external walls and windows, is varied; the selected values correspond to five typical European cities. It is shown that a PCM-enhanced SW results in higher savings in total energy consumption compared to a conventional SW.
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ISSN:1751-2549
1756-2201
DOI:10.1080/17512549.2016.1143875