m
m
 
(10 intermediate revisions by 2 users not shown)
Line 1: Line 1:
 +
{{alert|Permeable pavement can be an important tool for retention and detention of stormwater runoff. Permeable pavement may provide additional benefits, including reducing the need for de-icing chemicals, and providing a durable and aesthetically pleasing surface.|alert-success}}
 
[[File:mids logo.jpg|300px|right|alt=image of Minimal Impact Design Standards logo]]
 
[[File:mids logo.jpg|300px|right|alt=image of Minimal Impact Design Standards logo]]
  
 
[[File:picture of porous concrete 1.jpg|thumb|300px|alt=photo illustrating an example of pervious concrete|<font size=3>An example of pervious concrete.</font size>]]
 
[[File:picture of porous concrete 1.jpg|thumb|300px|alt=photo illustrating an example of pervious concrete|<font size=3>An example of pervious concrete.</font size>]]
 
[[File:Perm asphalt bikeway.JPG|thumb|300px|alt=permeable asphalt photo|<font size=3>Permeable asphalt bikeway in Germany.</font size>]]
 
[[File:Perm asphalt bikeway.JPG|thumb|300px|alt=permeable asphalt photo|<font size=3>Permeable asphalt bikeway in Germany.</font size>]]
{{alert|Permeable pavement can be an important tool for retention and detention of stormwater runoff. Permeable pavement may provide additional benefits, including reducing the need for de-icing chemicals, and providing a durable and aesthetically pleasing surface.|alert-success}}
 
  
 
Permeable pavements allow stormwater runoff to filter through surface voids into an underlying stone reservoir for temporary storage and/or infiltration. The most commonly used permeable pavement surfaces are pervious concrete, porous asphalt, and permeable interlocking concrete pavers (PICP). Permeable pavements have been used for areas with light traffic at commercial and residential sites to replace traditional impervious surfaces in low-speed roads, alleys, parking lots, driveways, sidewalks, plazas, and patios. While permeable pavements can withstand truck loads, permeable pavement has not been proven in areas exposed to high repetitions of trucks or in high speed areas because its’ structural performance and surface stability have not yet been consistently demonstrated in such applications.  
 
Permeable pavements allow stormwater runoff to filter through surface voids into an underlying stone reservoir for temporary storage and/or infiltration. The most commonly used permeable pavement surfaces are pervious concrete, porous asphalt, and permeable interlocking concrete pavers (PICP). Permeable pavements have been used for areas with light traffic at commercial and residential sites to replace traditional impervious surfaces in low-speed roads, alleys, parking lots, driveways, sidewalks, plazas, and patios. While permeable pavements can withstand truck loads, permeable pavement has not been proven in areas exposed to high repetitions of trucks or in high speed areas because its’ structural performance and surface stability have not yet been consistently demonstrated in such applications.  
Line 21: Line 21:
 
*[[Design criteria for permeable pavement]]
 
*[[Design criteria for permeable pavement]]
 
*[[Construction specifications for permeable pavement]]
 
*[[Construction specifications for permeable pavement]]
<!--[[Construction observations for permeable pavement]]-->
 
 
*[[Assessing the performance of permeable pavement]]
 
*[[Assessing the performance of permeable pavement]]
*[[Operation and maintenance of permeable pavement]]
+
*[[Operation and maintenance (O&M) of permeable pavement]]
 +
*[[Operation and maintenance (O&M) of permeable pavement - supplemental information]]
 
*[[Calculating credits for permeable pavement]]
 
*[[Calculating credits for permeable pavement]]
<!--[[Cost-benefit considerations for permeable pavement]]-->
 
 
*[[Case studies for permeable pavement]]
 
*[[Case studies for permeable pavement]]
 
*[[Green Infrastructure benefits of permeable pavement]]
 
*[[Green Infrastructure benefits of permeable pavement]]
Line 31: Line 30:
 
*[[Permeable pavement photo gallery]]
 
*[[Permeable pavement photo gallery]]
 
*[[Additional considerations for permeable pavement]]
 
*[[Additional considerations for permeable pavement]]
*[[Links for permeable pavement]]
 
<!--*[[External resources for permeable pavement]]-->
 
 
*[[References for permeable pavement]]
 
*[[References for permeable pavement]]
<!--*[[Supporting material for permeable pavement]]-->
 
 
*[[Requirements, recommendations and information for using permeable pavement BMPs in the MIDS calculator]]
 
*[[Requirements, recommendations and information for using permeable pavement BMPs in the MIDS calculator]]
<!--#[[Permeable pavement credits]]-->
+
*[[Fact sheets for permeable pavement]]
[[Fact sheets for permeable pavement]]
 
 
 
[[Recent news and information for permeable pavement]]
 
  
 
Several [[Fact sheets for permeable pavement|fact sheets]] for permeable pavement provide overview information and information on design, construction and maintenance, and volume and pollutant removal.
 
Several [[Fact sheets for permeable pavement|fact sheets]] for permeable pavement provide overview information and information on design, construction and maintenance, and volume and pollutant removal.
Line 47: Line 40:
 
*[[Determining soil infiltration rates]]
 
*[[Determining soil infiltration rates]]
  
<noinclude>[[Category:BMP]]</noinclude>
+
<noinclude>
 +
[[Category:Level 3 - Best management practices/Structural practices/Permeable pavement]]
 +
</noinclude>

Latest revision as of 21:06, 22 December 2022

Green Infrastructure: Permeable pavement can be an important tool for retention and detention of stormwater runoff. Permeable pavement may provide additional benefits, including reducing the need for de-icing chemicals, and providing a durable and aesthetically pleasing surface.
image of Minimal Impact Design Standards logo
photo illustrating an example of pervious concrete
An example of pervious concrete.
permeable asphalt photo
Permeable asphalt bikeway in Germany.

Permeable pavements allow stormwater runoff to filter through surface voids into an underlying stone reservoir for temporary storage and/or infiltration. The most commonly used permeable pavement surfaces are pervious concrete, porous asphalt, and permeable interlocking concrete pavers (PICP). Permeable pavements have been used for areas with light traffic at commercial and residential sites to replace traditional impervious surfaces in low-speed roads, alleys, parking lots, driveways, sidewalks, plazas, and patios. While permeable pavements can withstand truck loads, permeable pavement has not been proven in areas exposed to high repetitions of trucks or in high speed areas because its’ structural performance and surface stability have not yet been consistently demonstrated in such applications.

While design details vary, all permeable pavements have a similar structure, consisting of a surface pavement layer, an underlying stone aggregate reservoir layer, optional underdrains and geotextile over uncompacted soil subgrade. From a hydrologic perspective, permeable pavement is typically designed to manage rainfall landing directly on the permeable pavement surface. Permeable pavement surfaces may accept runoff contributed by adjacent impervious areas such as driving lanes or rooftops. The capacity of the underlying reservoir limits the contributing area. Run-on from adjacent vegetated areas is generally not recommended and if it occurs, must be stabilized and not generate sediment as its transport accelerates permeable pavement surface clogging.

Caution: Sediment control (pretreatment) from adjacent impervious or vegetated contributing areas is HIGHLY RECOMMENDED to avoid clogging of the permeable pavement surface


The individual articles comprising this section on permeable pavement may be viewed as a single article. Note: Due to an unresolved bug, when viewing a formula in a combined article, the math markup (used for equations) is displayed. Please ignore the markup. Thanks.

Acknowledgements

Permeable pavement articles

Several fact sheets for permeable pavement provide overview information and information on design, construction and maintenance, and volume and pollutant removal.

Related pages

This page was last edited on 22 December 2022, at 21:06.