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Climate-responsive thermal mass design for Pacific Northwest sunspaces

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  • Rempel, Alexandra R.
  • Rempel, Alan W.
  • Gates, Kenneth R.
  • Shaw, Barbara

Abstract

Thermal mass is essential in passive solar spaces designed to store heat. Given the diversity of climates with useful cool-season sun, climate-responsiveness in thermal mass design might be expected; however, rules developed in the dry, sunny American Southwest dominate teaching and practice throughout the country. Evidence from the UK, Alaska, and western Oregon now suggest that conventional thermal mass rules require substantial revision for rainy, cloudy climates. To address this issue, we here employ a series of field-validated Pacific Northwest sunspace models to quantify limitations of conventional thermal mass design in the region and to reveal more suitable parameters with respect to the sizing and ground configuration of floor-based thermal mass. Results favored thermal mass in far smaller quantities, and with much-reduced ground contact, than specified by conventional rules, with optimal parameters varying by design priority: daytime warmth, evening warmth, or early-morning warmth. A subsequent field test confirmed model predictions and elucidated underlying mechanisms, supporting specific revisions of contemporary passive solar design guidelines for the Pacific Northwest and related West Coast Marine climates.

Suggested Citation

  • Rempel, Alexandra R. & Rempel, Alan W. & Gates, Kenneth R. & Shaw, Barbara, 2016. "Climate-responsive thermal mass design for Pacific Northwest sunspaces," Renewable Energy, Elsevier, vol. 85(C), pages 981-993.
    • Handle: RePEc:eee:renene:v:85:y:2016:i:c:p:981-993
    DOI: 10.1016/j.renene.2015.07.027
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    References listed on IDEAS

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    Cited by:

    1. Jiang, Wei & Jin, Yang & Liu, Gongliang & Li, Qing & Li, Dong, 2023. "Passive nearly zero energy retrofits of rammed earth rural residential buildings based on energy efficiency and cost-effectiveness analysis," Renewable and Sustainable Energy Reviews, Elsevier, vol. 180(C).
    2. Qingsong Ma & Hiroatsu Fukuda & Myonghyang Lee & Takumi Kobatake & Yuko Kuma & Akihito Ozaki & Xindong Wei, 2018. "Study on Heat Utilization in an Attached Sunspace in a House with a Central Heating, Ventilation, and Air Conditioning System," Energies, MDPI, vol. 11(5), pages 1-12, May.
    3. Rempel, A.R. & Rempel, A.W. & McComas, S.M. & Duffey, S. & Enright, C. & Mishra, S., 2021. "Magnitude and distribution of the untapped solar space-heating resource in U.S. climates," Renewable and Sustainable Energy Reviews, Elsevier, vol. 151(C).
    4. Qingsong Ma & Hiroatsu Fukuda & Myonghyang Lee & Takumi Kobatake & Yuko Kuma & Akihito Ozaki & Xindong Wei, 2018. "Experimental Analysis of the Thermal Performance of a Sunspace Attached to a House with a Central Air Conditioning System," Sustainability, MDPI, vol. 10(5), pages 1-17, May.
    5. Rossano Albatici & Francesco Passerini & Jens Pfafferott, 2016. "Energy Performance of Verandas in the Building Retrofit Process," Energies, MDPI, vol. 9(5), pages 1-12, May.
    6. Bastien, Diane & Athienitis, Andreas K., 2018. "Passive thermal energy storage, part 1: Design concepts and metrics," Renewable Energy, Elsevier, vol. 115(C), pages 1319-1327.
    7. Ahmad Taghdisi & Yousof Ghanbari & Mohammad Eskandari, 2020. "Energy-Conservation Considerations Through a Novel Integration of Sunspace and Solar Chimney in The Terraced Rural Dwellings," International Journal of Energy Economics and Policy, Econjournals, vol. 10(3), pages 1-13.

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