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Analysis of an Attached Sunspace with a Thermal Inertia Floor

Author

Listed:
  • María José Suárez López

    (Campus de Viesques, Universidad de Oviedo, EDZE (Energía), 33203 Gijón (Asturias), Spain)

  • Antonio José Gutiérrez Trashorras

    (Campus de Viesques, Universidad de Oviedo, EDZE (Energía), 33203 Gijón (Asturias), Spain)

  • Jorge Luis Parrondo Gayo

    (Campus de Viesques, Universidad de Oviedo, EDZE (Energía), 33203 Gijón (Asturias), Spain)

  • Eduardo Blanco Marigorta

    (Campus de Viesques, Universidad de Oviedo, EDZE (Energía), 33203 Gijón (Asturias), Spain)

Abstract

An attached sunspace is a partially or fully glazed enclosure, usually located on the first floor, facing south (in the Northern Hemisphere) and adjacent to a conditioned room. Because of the length and orientation of the glazed area, the temperature in the sunspace is usually higher than outside the building. As a Trombe–Mitchel wall, the sunspace has a considerable mass that accumulates thermal energy, but in this case the thermal mass is located in the floor. This capacity to accumulate thermal energy confers the attached sunspace features beyond passive insulation. The sunspace studied in this paper is part of an experimental building located in the North of Spain that was built in the frame of the so-called ARFRISOL project. It consists of a south-facing glazed exterior wall with both clear glass and semi-transparent photovoltaic panels, an intermediate space with a thick layer of sand over a concrete floor, and a partially glazed interior wall. In this paper, a three-dimensional computational model has been implemented to analyse the thermal behaviour inside the sunspace. This analysis takes into account, among other factors, the effects of sun position, incident solar irradiation and temperature both inside and outside.

Suggested Citation

  • María José Suárez López & Antonio José Gutiérrez Trashorras & Jorge Luis Parrondo Gayo & Eduardo Blanco Marigorta, 2018. "Analysis of an Attached Sunspace with a Thermal Inertia Floor," Energies, MDPI, vol. 11(5), pages 1-14, May.
    • Handle: RePEc:gam:jeners:v:11:y:2018:i:5:p:1136-:d:144401
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    References listed on IDEAS

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    1. Chen, Wei & Liu, Wei, 2004. "Numerical analysis of heat transfer in a composite wall solar-collector system with a porous absorber," Applied Energy, Elsevier, vol. 78(2), pages 137-149, June.
    2. Oliveti, Giuseppe & Arcuri, Natale & De Simone, Marilena & Bruno, Roberto, 2012. "Solar heat gains and operative temperature in attached sunspaces," Renewable Energy, Elsevier, vol. 39(1), pages 241-249.
    3. Munawar Iqbal & David T. Llewellyn, 2002. "Introduction," Chapters, in: Munawar Iqbal & David T. Llewellyn (ed.), Islamic Banking and Finance, chapter 1, Edward Elgar Publishing.
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    Cited by:

    1. María Nuria Sánchez & Emanuela Giancola & Eduardo Blanco & Silvia Soutullo & María José Suárez, 2019. "Experimental Validation of a Numerical Model of a Ventilated Façade with Horizontal and Vertical Open Joints," Energies, MDPI, vol. 13(1), pages 1-16, December.
    2. Qingsong Ma & Cui Xu & Xiaofei Chen & Weijun Gao & Xindong Wei, 2022. "Experimental and Simulation Research on the Energy-Saving Potential of a Sunspace—Taking an Apartment in Qingdao as an Example," Sustainability, MDPI, vol. 15(1), pages 1-21, December.

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