2017
DOI: 10.1016/j.enbuild.2017.04.001
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A hygrothermal green roof model to simulate moisture and energy performance of building components

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Cited by 35 publications
(20 citation statements)
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“…The material is found to be suitable, according to examined parameters, such as water storage capacity, plant survival, and ease of installation and inspection. Zirkelbach et al [102] present a comprehensive hygrothermal model for green roofs, validated by field test results. Considerations of moisture conditions are limited only to growth and drainage media.…”
Section: Management Operations and Maintenancementioning
confidence: 99%
“…The material is found to be suitable, according to examined parameters, such as water storage capacity, plant survival, and ease of installation and inspection. Zirkelbach et al [102] present a comprehensive hygrothermal model for green roofs, validated by field test results. Considerations of moisture conditions are limited only to growth and drainage media.…”
Section: Management Operations and Maintenancementioning
confidence: 99%
“…As for the vegetation characteristics, Figure 7 shows how the Halimione Portulacoides (both P1 and P6) and the Rosmarinus Officinalis Prostratus (only P5) reached full coverage (100%) in less than 12 months while the Rosmarinus Officinalis Prostratus in P2 achieved a maxim coverage of about 85% in the same period and the Crithmum Maritimum (both P3 and P4) did not accomplish more than 40%-60%, showing the difficulty of establishing it in the considered environment [52].…”
Section: Description Of the Analysed Green Roof Installed In The Expementioning
confidence: 99%
“…In addition to experimental studies [44][45][46], the effect on the built environment of vegetated roofs in diverse climates has also been investigated from analytical [47][48][49] and modelling points of view [50][51][52] over the years. In particular, the relevant parameters for energy modelling of green roofs have been explored in the literature, particularly referring to the role played by leaves and solar radiation in the thermal exchanges between vegetated layers and the surrounding environment [53].…”
Section: Introductionmentioning
confidence: 99%
“…Among the approved tools, the WUFI simulation software has been chosen for further use by researchers to simulate the bond between moisture and heat transfer through green roof layers owing to some reasons including higher accuracy of hygrothermal simulation results in comparison with experimental measurements under different climate conditions over a long-period monitoring (Schafaczek and Zirkelbach 2013). Considering the rainwater reception and water drainage effect through the greenery layers are other advantages of WUFI simulation software (Zirkelbach et al 2017;Vertaľ et al 2018). In addition to the above, the moisture properties of materials including liquid water transport and vapour diffusion can be easily measured in lab-scale and then introduced into the WUFI software to predict the hygrothermal performance of green roof layers (Vertaľ et al 2018).…”
Section: Introductionmentioning
confidence: 99%