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[[File:Picture of porous concrete 1.jpg|thumb|300 px|alt=This photo illustrates pervious concrete. Pervious concrete is a special type of concrete with a high porosity that allows water from precipitation and other sources to pass directly through.|<p><font size=2>Photo illustrating pervious concrete. Pervious concrete is a special type of concrete with a high porosity that allows water from precipitation and other sources to pass directly through.</font size=2></p>]] | [[File:Picture of porous concrete 1.jpg|thumb|300 px|alt=This photo illustrates pervious concrete. Pervious concrete is a special type of concrete with a high porosity that allows water from precipitation and other sources to pass directly through.|<p><font size=2>Photo illustrating pervious concrete. Pervious concrete is a special type of concrete with a high porosity that allows water from precipitation and other sources to pass directly through.</font size=2></p>]] | ||
− | The most commonly used permeable pavement surfaces are pervious concrete, porous asphalt, and permeable interlocking concrete pavers. Lesser utilized options include plastic and concrete grids, as well as amended soils (artificial media added to soil to maintain soil structure and prevent compaction) (MPCA 2008). For the purpose of this document, the focus is on pervious concrete, porous asphalt and permeable interlocking concrete pavements. | + | The most commonly used permeable pavement surfaces are pervious concrete, porous asphalt, and permeable interlocking concrete pavers. Lesser utilized options include plastic and concrete grids, as well as amended soils (artificial media added to soil to maintain soil structure and prevent compaction) (MPCA 2008)<sup><ref name="multiple1"> With amended soils, fiber or artificial media is added to soil to maintain soil structure and prevent compaction. There are many different types of modular porous pavers available from different manufacturers. Amended soils are not considered true permeable pavement and are not discussed further in articles on permeable pavement. Additional information on soil amendments can be found in the section on [[Turf|turf]].ref></sup>. For the purpose of this document, the focus is on pervious concrete, porous asphalt and permeable interlocking concrete pavements. |
<!--<p>'''Pervious concrete''' is a special type of concrete with a high porosity used for concrete flatwork applications that allows water from precipitation and other sources to pass directly through, thereby reducing the runoff from a site and allowing groundwater recharge. The high porosity is attained by a highly interconnected void content. Typically pervious concrete has little or no fine aggregate and has just enough cementitious paste to coat the coarse aggregate particles while preserving the interconnectivity of the voids. Pervious concrete is traditionally used in parking areas, areas with light traffic, residential streets, pedestrian walkways, and greenhouses.</p> | <!--<p>'''Pervious concrete''' is a special type of concrete with a high porosity used for concrete flatwork applications that allows water from precipitation and other sources to pass directly through, thereby reducing the runoff from a site and allowing groundwater recharge. The high porosity is attained by a highly interconnected void content. Typically pervious concrete has little or no fine aggregate and has just enough cementitious paste to coat the coarse aggregate particles while preserving the interconnectivity of the voids. Pervious concrete is traditionally used in parking areas, areas with light traffic, residential streets, pedestrian walkways, and greenhouses.</p> | ||
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To assist with selection of a permeable pavement type, a general comparison of the properties of the three major permeable pavement types is provided in the table below. Designers should check with product vendors and the local review authority to determine specific requirements and capabilities of each system. Schematic cross sections of each system are illustrated in the [[Design criteria for permeable pavement|design section]] for permeable pavement. | To assist with selection of a permeable pavement type, a general comparison of the properties of the three major permeable pavement types is provided in the table below. Designers should check with product vendors and the local review authority to determine specific requirements and capabilities of each system. Schematic cross sections of each system are illustrated in the [[Design criteria for permeable pavement|design section]] for permeable pavement. | ||
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The most commonly used permeable pavement surfaces are pervious concrete, porous asphalt, and permeable interlocking concrete pavers. Lesser utilized options include plastic and concrete grids, as well as amended soils (artificial media added to soil to maintain soil structure and prevent compaction) (MPCA 2008)<ref name="multiple1"> With amended soils, fiber or artificial media is added to soil to maintain soil structure and prevent compaction. There are many different types of modular porous pavers available from different manufacturers. Amended soils are not considered true permeable pavement and are not discussed further in articles on permeable pavement. Additional information on soil amendments can be found in the section on turf.ref>. For the purpose of this document, the focus is on pervious concrete, porous asphalt and permeable interlocking concrete pavements.
For each of the above pavement surfaces, there are many variants depending on the design goals. For instance, permeable pavement can be installed with a deep underlying reservoir consisting of open-graded, crushed rock. This design provides water quality and quantity control by storing runoff and infiltrating it into the subgrade soils over an extended period of time. A second design variation includes a deep underlying reservoir consisting of open-graded, crushed rock above an impermeable layer of soil or a liner and an underdrain. The underdrain typically discharges to a stormwater pond or storm sewer system. This design provides some runoff flow attenuation, filtering, but no volume reduction. These two options provide different levels of treatment.
To assist with selection of a permeable pavement type, a general comparison of the properties of the three major permeable pavement types is provided in the table below. Designers should check with product vendors and the local review authority to determine specific requirements and capabilities of each system. Schematic cross sections of each system are illustrated in the design section for permeable pavement.
Summary of properties of permeable pavements.
Link to this table
Properties | Pervious concrete | Porous asphalt | PICP |
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Typical pavement surface thicknessa | 5 to 8 inches | 3 to 4 inches (thicker for high wheel load applications) | 3 inchesa |
Bedding layera,f | None | 1 in. AASHTO No. 57 stone | 2 inches of AASHTO No. 8 stone (MnDOT 3127 FA-3) |
Reservoir layerb,f | AASHTO No. 57 stone or per hydraulic design | AASHTO No. 2, 3, or 5 stone | 4 inches of AASHTO No. 57 stone over No. 2, 3 or 4 stone |
Construction properties |
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|
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Installed surfacing costc | 3 to $4/square foot | $2/square foot | 3 to $4/square foot |
Minimum batch size | |||
Longevityd | |||
Overflow | |||
Runoff temperature reduction | |||
Surface colors/texture | Range of light colors and textures | Black or dark grey colors | Wide range of colors, textures and patterns |
Load bearing capacitye | |||
Surface cleaningg | Periodic vacuuming; replace jointing stones if completely clogged and uncleanable | ||
Other issues |
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Avoid winter sanding |
Design references | [1] | [2] | [3] |
aThickness may vary depending on site and traffic conditions
bReservoir storage may be augmented by corrugated metal pipes, plastic arch pipe or plastic lattice crates
cSupply and install minimum surface thickness only; minimum 30,000 sf with Minnesota 2012 prevailing labor wages. Does not include base reservoir, drainage appurtenances, engineering, or inspection
dBased on pavement being properly maintained. Resurfacing or rehabilitation may be needed after the indicated period
eDepends primarily on on-site geotechnical considerations and structural design computations
f ASTM D448 Standard Classification for Sizes of Aggregate for Road and Bridge Construction or ASASHTO M-43
gPeriodic vacuuming frequency determined from inspection, intensity of use, and other potential sediment sources