Green Roof Infiltration

Green roofs are covered with growing media and vegetation that enable rainfall infiltration and evapotranspiration of stored water.

Green roof infiltration.

Technical infeasibility may result from the following. Many jurisdictions now require building owners to collect stormwater in infiltration basins that clean and slowly release the water back into the ground to help reduce the burden on the sewer systems green roofs help do this naturally without the need for special infiltration basins or equipment. For an extensive green roof growing substrate the infiltration rate should be 1 0 mm min or 60 l m 2 h for an intensive green roof infiltration rate s should be 0 6 mm min or 36 l m 2 h. Keep in mind that this assessment only applies to the green roof footprint which is typically less than 90 of the building footprint not the whole parcel being developed.

Extensive green roofs will capture and retain about 55 of the annual rainfall thereby reducing stormwater runoff to the storm drainage system in pennsylvania. In the summer a green roof can typically retain between 70 80 of the run off. The amount will be dependent on the depth and type of substrate in the green roof system. Air infiltration should be reduced any necessary hvac upgrades should be carried out.

From green roofs and rainfall harvest and reuse for both indoor and outdoor use. In germany between 40 100 of rainfall can be retained dependent. A green roof will typically intercept the first 5mm and more of rainfall providing interception storage. The infiltration rate of saturated in situ soils less than 0 3 inch per.

Integrating a green roof into a historic building rehabilitation project may appear to be an easy solution to reducing the urban heat island effect improving storm water management and improving the energy efficiency and sustainability of the building. The minimum thickness of the green roof growing medium must be calculated as follows where the impervious roof area to green roof area ratio is less. A typical green roof consists of several layers including a vegetation layer a medium layer a filtering drainage layer and a roof deck layer. To demonstrate technical infeasibility it must be shown that a project site cannot reliably retain 100 percent of the swqdv onsite.

A green roof system atop a building helps manage stormwater and reduce energy costs for cooling. However the ability of green roofs to retain water varies across sites due to climate and vegetation type as well as the structure and properties of the layers and roof. A measure of how rapidly water soaks into a growing substrate growing medium or soil.