2015
DOI: 10.1007/s11270-015-2464-9
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Vertical Greenery Systems as a Strategy in Urban Heat Island Mitigation

Abstract: Integrating vegetation into architecture has become widely recognized as a multi-beneficial practice in architecture and engineering design to combat an array of environmental issues. Urban areas have microclimates that are different than the climates of their surrounding rural areas. Patterns in these differences over the years have shown that urban microclimates tend to be significantly warmer in comparison. This phenomenon is now recognized as the urban Bheat island^effect. While the associated consequences… Show more

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Cited by 63 publications
(33 citation statements)
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References 53 publications
(70 reference statements)
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“…This kind of technological solution is able to provide different beneficial effects: during the cooling season, thanks to the shading effect of the leaves and the evapotranspiration of the plants, the entering loads are lowered [10], while, during the heating season, it can contribute to reducing heat losses and improving surface thermal resistance, because of the wind reduction in the vicinity of the wall [11,12], to increasing the sound insulation of the wall [13,14] and reducing the environmental impact of the buildings [15][16][17]. At an urban level, VGSs are able to filter pollution [18], to sequester CO2 [19], to reduce urban sound propagation [20][21][22], to give a pleasant aesthetical aspect to a building, to improve the bio-diversity [23] and to mitigate the urban heat island effect (UHI) [24,25]. The species used in outdoor living walls vary to a great extent, depending on the location, on the exposure to the sun and wind and on the height of the building [26].…”
Section: -Introductionmentioning
confidence: 99%
“…This kind of technological solution is able to provide different beneficial effects: during the cooling season, thanks to the shading effect of the leaves and the evapotranspiration of the plants, the entering loads are lowered [10], while, during the heating season, it can contribute to reducing heat losses and improving surface thermal resistance, because of the wind reduction in the vicinity of the wall [11,12], to increasing the sound insulation of the wall [13,14] and reducing the environmental impact of the buildings [15][16][17]. At an urban level, VGSs are able to filter pollution [18], to sequester CO2 [19], to reduce urban sound propagation [20][21][22], to give a pleasant aesthetical aspect to a building, to improve the bio-diversity [23] and to mitigate the urban heat island effect (UHI) [24,25]. The species used in outdoor living walls vary to a great extent, depending on the location, on the exposure to the sun and wind and on the height of the building [26].…”
Section: -Introductionmentioning
confidence: 99%
“…This phenomenon, recognized as the urban heat island effect, can be mitigated by green areas on land, green roof and green in façade [14].…”
Section: Sustainable Sitementioning
confidence: 99%
“…According to [25], parks incorporated with greeneries provide higher levels of thermal comfort, with approximately 0.94 °C of reduced daytime temperatures. It should be noted that existing literature on the potential of parks to combat urban heat mainly centered on urban parks [26], urban gardens [27], green roofs [28], vertical greenery [29], urban trees [30] and pocket parks [31] in accordance with the size and shape. Nonetheless, the potential of OPS as a viable mean for UHI reduction is still subjected to further investigation in the tropical context.…”
Section: Introductionmentioning
confidence: 99%