Increases in extreme hydro-meteorological events due to climate change and decreases in soil permeability and infiltration due to urbanization have increased the risk of flooding, particularly in cities. The limitation of the expansion of conventional drainage systems to manage excess stormwater leads to the application of nature-based solutions (NBS) to control flooding. This study explores potential of green roof NBS for rainfall-fed flood reduction, which can utilize existing roof space for deployment. A detailed literature survey using systematic literature-search procedures was conducted to investigate the performance of extensive/intensive green roofs in runoff reduction using monitoring/modeling approaches. Since limited studies have...
Loss of natural soil and vegetation within the urban environment can significantly affect the hydrol...
International audienceExperimental green-roof rainfall–runoff observations have shown a positive imp...
Increased urbanization leads to an increasing amount of impervious surfaces and a decrease ofthe nat...
This thesis aims to show the runoff reduction performance of green roofs based on climate change pro...
The rapid urbanization and industrialization involve an unsustainable use of natural systems, leadin...
The rapid urbanization and industrialization involve an unsustainable use of natural systems, leadin...
The rapid urbanization and industrialization involve an unsustainable use of natural systems lead to...
Green roof can provide a significant reduction of stormwater runoff in urban areas whe...
Increased urbanization combined with the intensification of short rainfall events has worsened the u...
In the face of excessive soil sealing and the occurrence of heavy rainfall in short time periods lea...
International audienceAt the building scale, green roof has demonstrated a positive impact on urban ...
Green roof is a technology able to give a big contribution to the reduction of stormwater runoff in ...
Loss of natural soil and vegetation within the urban environment can significantly affect the hydrol...
Green roofs are where a roof of a building is partially covered with vegetation which acts as a mean...
Urbanization process is rapidly converting forested areas and grasslands to residential, commercial,...
Loss of natural soil and vegetation within the urban environment can significantly affect the hydrol...
International audienceExperimental green-roof rainfall–runoff observations have shown a positive imp...
Increased urbanization leads to an increasing amount of impervious surfaces and a decrease ofthe nat...
This thesis aims to show the runoff reduction performance of green roofs based on climate change pro...
The rapid urbanization and industrialization involve an unsustainable use of natural systems, leadin...
The rapid urbanization and industrialization involve an unsustainable use of natural systems, leadin...
The rapid urbanization and industrialization involve an unsustainable use of natural systems lead to...
Green roof can provide a significant reduction of stormwater runoff in urban areas whe...
Increased urbanization combined with the intensification of short rainfall events has worsened the u...
In the face of excessive soil sealing and the occurrence of heavy rainfall in short time periods lea...
International audienceAt the building scale, green roof has demonstrated a positive impact on urban ...
Green roof is a technology able to give a big contribution to the reduction of stormwater runoff in ...
Loss of natural soil and vegetation within the urban environment can significantly affect the hydrol...
Green roofs are where a roof of a building is partially covered with vegetation which acts as a mean...
Urbanization process is rapidly converting forested areas and grasslands to residential, commercial,...
Loss of natural soil and vegetation within the urban environment can significantly affect the hydrol...
International audienceExperimental green-roof rainfall–runoff observations have shown a positive imp...
Increased urbanization leads to an increasing amount of impervious surfaces and a decrease ofthe nat...