Energy efficiency for cooling buildings in hot and dry regions using sol-air temperature and ground temperature effects

PurposeIn hot and dry climates, air conditioning accounts for a large portion of total energy consumption; therefore, this paper aims to investigate the impact of sol-air temperature and ground temperature on the loss of cooling energy in hot and dry regions of Iran.Design/methodology/approachIn lin...

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Published in	Journal of engineering, design and technology Vol. 17; no. 3; pp. 613 - 628
Main Authors	Mostafaeipour, Ali, Goudarzi, Hossein, Sedaghat, Ahmad, Jahangiri, Mehdi, Hadian, Hengameh, Rezaei, Mostafa, Amir-Mohammad Golmohammadi, Karimi, Parniyan
Format	Journal Article
Language	English
Published	Bingley Emerald Group Publishing Limited 06.06.2019
Subjects	Air conditioners Air conditioning Air flow Air temperature Ambient temperature Building envelopes Buildings Construction Cooling Energy conservation Energy consumption Energy dissipation Energy resources Heat loss Heat resistance Heat transfer Methods Numerical analysis Soil erosion Soil temperature Solar radiation Temperature effects Variation Iran Kuwait
Online Access	Get full text
ISSN	1726-0531 1758-8901
DOI	10.1108/JEDT-12-2018-0216

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Abstract	PurposeIn hot and dry climates, air conditioning accounts for a large portion of total energy consumption; therefore, this paper aims to investigate the impact of sol-air temperature and ground temperature on the loss of cooling energy in hot and dry regions of Iran.Design/methodology/approachIn line with this objective, the values of sol-air temperature along different directions and ground temperature at different depths were assessed with respect to climatic data of Yazd City. The impact of sol-air temperature and ground temperature on the rate of heat loss was investigated. So, energy loss of the walls aligned to four primary directions was calculated. This process was repeated for a 36 m2 building with three different shape factors. All analyses were conducted for the period from May to September, during which buildings need to be cooled by air conditioners.FindingsNumerical analyses conducted for hot and dry climate show that sol-air temperature leads to a 41-17 per cent increase in the wall’s energy loss compared with ambient temperature. Meanwhile, building the wall below the surface leads to a significant reduction in energy loss. For example, building the wall 400 cm below the surface leads to about 74.8-79.2 per cent energy saving compared with above ground design. The results also show that increasing the direct contact between soil and building envelope decreases the energy loss, so energy loss of a building that is built 400 cm below the surface is 53.7-55.3 per cent lower than that of a building built above the surface.Originality/valueThe impact of sol-air temperature and ground temperature on the cooling energy loss of a building in hot and dry climate was investigated. Numerical analysis shows that solar radiation increases heat loss from building envelope. Soil temperature fluctuations decrease with depth. Heat loss from building envelope in an underground building is lower than that from building envelope in a building built above the ground. Three different shape factors showed that sol-air temperature has the maximum impact on square-shaped plan and minimal impact on buildings with east-west orientation.
AbstractList	PurposeIn hot and dry climates, air conditioning accounts for a large portion of total energy consumption; therefore, this paper aims to investigate the impact of sol-air temperature and ground temperature on the loss of cooling energy in hot and dry regions of Iran.Design/methodology/approachIn line with this objective, the values of sol-air temperature along different directions and ground temperature at different depths were assessed with respect to climatic data of Yazd City. The impact of sol-air temperature and ground temperature on the rate of heat loss was investigated. So, energy loss of the walls aligned to four primary directions was calculated. This process was repeated for a 36 m2 building with three different shape factors. All analyses were conducted for the period from May to September, during which buildings need to be cooled by air conditioners.FindingsNumerical analyses conducted for hot and dry climate show that sol-air temperature leads to a 41-17 per cent increase in the wall’s energy loss compared with ambient temperature. Meanwhile, building the wall below the surface leads to a significant reduction in energy loss. For example, building the wall 400 cm below the surface leads to about 74.8-79.2 per cent energy saving compared with above ground design. The results also show that increasing the direct contact between soil and building envelope decreases the energy loss, so energy loss of a building that is built 400 cm below the surface is 53.7-55.3 per cent lower than that of a building built above the surface.Originality/valueThe impact of sol-air temperature and ground temperature on the cooling energy loss of a building in hot and dry climate was investigated. Numerical analysis shows that solar radiation increases heat loss from building envelope. Soil temperature fluctuations decrease with depth. Heat loss from building envelope in an underground building is lower than that from building envelope in a building built above the ground. Three different shape factors showed that sol-air temperature has the maximum impact on square-shaped plan and minimal impact on buildings with east-west orientation.
Author	Hadian, Hengameh Mostafaeipour, Ali Sedaghat, Ahmad Karimi, Parniyan Rezaei, Mostafa Goudarzi, Hossein Jahangiri, Mehdi Amir-Mohammad Golmohammadi
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SubjectTerms	Air conditioners Air conditioning Air flow Air temperature Ambient temperature Building envelopes Buildings Construction Cooling Energy conservation Energy consumption Energy dissipation Energy resources Heat loss Heat resistance Heat transfer Methods Numerical analysis Soil erosion Soil temperature Solar radiation Temperature effects Variation
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Title	Energy efficiency for cooling buildings in hot and dry regions using sol-air temperature and ground temperature effects
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