@article{ref1,
title="A parametric study of fire risks of green roofs to adjacent buildings",
journal="Fire (Basel, Switzerland)",
year="2022",
author="Gerzhova, Nataliia and Dagenais, Christian and Ménard, Sylvain and Blanchet, Pierre and Cote, Jean",
volume="5",
number="4",
pages="e93-e93",
abstract="The susceptibility of plants to burn raises concerns about fire hazard that green roofs may pose to buildings. Main concerns relate to cases when such roofs are poorly maintained or stressed by drought conditions which leads to drying out of plants and the accumulation of dead organic material, greatly increasing the availability of fuel load. Existing standard safety measures aim to prevent the spread of fire through the vegetation cover. However, fire spread by thermal radiation is not considered. In this study, fire risk of exposure of adjacent buildings to radiant heat flux produced by fire on green roofs was assessed. Based on generally accepted maximum tolerable radiant heat flux to exposed facades of 12.5 kW/m2, the minimum safe separation distances were obtained for different conditions. Wildland fire behavior model was used to determine flame lengths which is the necessary parameter for a radiation model. Several vegetation types, moisture content scenarios and wind speeds were taken as variables. It was found that by providing the vegetation with reasonably high moisture content the fire risk can be greatly reduced, especially for grass-covered roofs. Since wind also has a strong effect on flame size, considering the exposure of a green roof to wind can bring better understanding of fire risk to adjacent buildings. At no-wind condition and at extremely low moisture content separation distances are as short as 3.1 m for dense shrubs and 2.4 m for tall dense grass.<p /> <p>Language: en</p>",
language="en",
issn="2571-6255",
doi="10.3390/fire5040093",
url="http://dx.doi.org/10.3390/fire5040093"
}