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Passive options for solar cooling of buildings in arid areas

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  • Amer, Emad H.

Abstract

The major heat load of buildings and workshops, made of metal structures, is the solar energy supplied through the roof. Several passive modifications have been introduced to the roof in order to reduce the temperature of indoor air in arid areas. An experimental investigation, employing passive modifications, has been carried out to study the reduction in air temperature. The results show that the inside air temperature falls to within 6 and 3°C, respectively, from the ambient temperature when the ceiling is painted white, or provided with a layer of thermal insulation. Using evaporative cooling or a solar chimney leads to an inside temperature within 1°C of the ambient temperature.

Suggested Citation

  • Amer, Emad H., 2006. "Passive options for solar cooling of buildings in arid areas," Energy, Elsevier, vol. 31(8), pages 1332-1344.
  • Handle: RePEc:eee:energy:v:31:y:2006:i:8:p:1332-1344
    DOI: 10.1016/j.energy.2005.06.002
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    References listed on IDEAS

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    1. Florides, G. A. & Tassou, S. A. & Kalogirou, S. A. & Wrobel, L. C., 2002. "Measures used to lower building energy consumption and their cost effectiveness," Applied Energy, Elsevier, vol. 73(3-4), pages 299-328, November.
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    1. Majed Abuseif & Zhonghua Gou, 2018. "A Review of Roofing Methods: Construction Features, Heat Reduction, Payback Period and Climatic Responsiveness," Energies, MDPI, vol. 11(11), pages 1-22, November.
    2. Badescu, Viorel & Laaser, Nadine & Crutescu, Ruxandra, 2010. "Warm season cooling requirements for passive buildings in Southeastern Europe (Romania)," Energy, Elsevier, vol. 35(8), pages 3284-3300.
    3. Jiaming Guo & Yanhua Liu & Enli Lü, 2019. "Numerical Simulation of Temperature Decrease in Greenhouses with Summer Water-Sprinkling Roof," Energies, MDPI, vol. 12(12), pages 1-15, June.
    4. Vargas-López, R. & Xamán, J. & Hernández-Pérez, I. & Arce, J. & Zavala-Guillén, I. & Jiménez, M.J. & Heras, M.R., 2019. "Mathematical models of solar chimneys with a phase change material for ventilation of buildings: A review using global energy balance," Energy, Elsevier, vol. 170(C), pages 683-708.
    5. Shi, Long & Zhang, Guomin & Yang, Wei & Huang, Dongmei & Cheng, Xudong & Setunge, Sujeeva, 2018. "Determining the influencing factors on the performance of solar chimney in buildings," Renewable and Sustainable Energy Reviews, Elsevier, vol. 88(C), pages 223-238.
    6. Zavala-Guillén, I. & Xamán, J. & Hernández-Pérez, I. & Hernández-Lopéz, I. & Gijón-Rivera, M. & Chávez, Y., 2018. "Numerical study of the optimum width of 2a diurnal double air-channel solar chimney," Energy, Elsevier, vol. 147(C), pages 403-417.
    7. Chan, Hoy-Yen & Riffat, Saffa B. & Zhu, Jie, 2010. "Review of passive solar heating and cooling technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 14(2), pages 781-789, February.
    8. Alex Yong Kwang Tan & Nyuk Hien Wong, 2013. "Parameterization Studies of Solar Chimneys in the Tropics," Energies, MDPI, vol. 6(1), pages 1-19, January.
    9. Shi, Long, 2019. "Impacts of wind on solar chimney performance in a building," Energy, Elsevier, vol. 185(C), pages 55-67.
    10. Li, Y. & Arulnathan, V. & Heidari, M.D. & Pelletier, N., 2022. "Design considerations for net zero energy buildings for intensive, confined poultry production: A review of current insights, knowledge gaps, and future directions," Renewable and Sustainable Energy Reviews, Elsevier, vol. 154(C).
    11. Huang, Sheng & Li, Wuyan & Lu, Jun & Li, Yongcai & Wang, Zhihao & Zhu, Shaohui, 2024. "Experimental study on thermal performances of a solar chimney with and without PCM under different system inclination angles," Energy, Elsevier, vol. 290(C).
    12. Shi, Long, 2018. "Theoretical models for wall solar chimney under cooling and heating modes considering room configuration," Energy, Elsevier, vol. 165(PB), pages 925-938.

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