What's ‘cool’ in the world of green façades? How plant choice influences the cooling properties of green walls

What's ‘cool’ in the world of green façades? How plant choice influences the cooling properties of green walls

Green walls provide an option for reducing the thermal load on buildings, reducing the requirement for mechanised air conditioning and helping to mitigate urban heat islands. The range and extent of benefits can vary with green wall typology. This research investigated green façades utilising wall s...

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Bibliographic Details
Published in:Building and environment Vol. 73; pp. 198 - 207
Main Authors: Cameron, Ross W.F., Taylor, Jane E., Emmett, Martin R.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-03-2014
Elsevier
Subjects:
Applied sciences
Buildings
Buildings. Public works
Climbers
Evapo-transpiration
Exact sciences and technology
External envelopes
Green façade
Shade
Thermal performance
Wall shrubs
Wall. Partition
Evapo-transpiration
Wall shrubs
Climbers
Green façade
Thermal performance
Shade
Performance evaluation
Temperature
Cooling
Thermoregulation
Shading
Front wall
Experimental study
Green wall
Building wall
Evapotranspiration
Vegetation
Climbing vine
Thermal analysis
Small tree
Comparative study
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Summary:Green walls provide an option for reducing the thermal load on buildings, reducing the requirement for mechanised air conditioning and helping to mitigate urban heat islands. The range and extent of benefits can vary with green wall typology. This research investigated green façades utilising wall shrubs and climbing plants to reduce air temperature adjacent to, and surface temperatures of, brick walls. Artificial wall sections were used to provide replicated data sets in both outdoor and controlled environmental conditions. During periods of high solar irradiance outdoors, the presence of live Prunus laurocerasus plants placed against walls significantly reduced air and surface temperatures compared to blank walls, but also in comparison to excised (non-transpiring) plant sections. Largest temperature differentials were recorded mid-late afternoon, where air adjacent to vegetated walls was 3 °C cooler than non-vegetated walls. Prunus also provided significant wall cooling in controlled environment studies, but was intermediate in its surface cooling capacity (6.3 °C) compared to other species; Stachys and Hedera providing >7.0 °C cooling. When evaluated on a per leaf area basis, however, other species demonstrated greater cooling potential with Fuchsia, Jasminum and Lonicera out-performing others. Not only was it evident that different species varied in their cooling capacity, but that the mechanisms for providing wall cooling varied between species. Fuchsia promoted evapo-transpiration cooling, whereas shade cooling was more important in Jasminum and Lonicera. Plant physiology and leaf area/morphology should be considered when selecting species to maximise cooling in green wall applications. •Replicated treatments were used to investigate thermal properties of green façades.•Vegetation significantly reduced wall surface and adjacent air temperatures.•Cooling potential was influenced by plant species choice.•Cooling mechanisms (shade v evapo-transpiration) varied between species.
ISSN:0360-1323
1873-684X
DOI:10.1016/j.buildenv.2013.12.005