🕑 Reading time: 1 minutePermeable pavement system allows percolation of rainfall water. The importance, construction and cross-section of permeable pavements are discussed here. Permeable pavement is a type of pavement that allows rainfall to percolate to an underlying reservoir base where rainfall is either infiltrated to underlying soils or removed by a subsurface drain. Standard pavements constructed with asphalt and concrete are considered to be “impermeable.” Rainfall on impermeable pavements cannot flow through the surface to the soils below, but runs to the lowest points to be drained away. Permeable pavements are alternatives to traditional impervious asphalt and concrete pavements. Interconnected void spaces in the pavement allow storm water to filter through the soil below the paved surface, reducing the numerous environmental issues associated with water runoff.
- Importance of Permeable Pavement System to Reduce Water Pollution
- Cross-Section of a Permeable Pavement System
- Hydrological Terminology used in Permeable Pavement Construction
Importance of Permeable Pavement System to Reduce Water PollutionJust as drinking water can be filtered to remove impurities, the soil particles filter rainwater percolating through soil on its way from surface waters to groundwater aquifers. This important step in the natural process of water purification is bypassed when rainwater falls on impermeable pavement surfaces or roofs and is carried directly through storm drainage systems into waterways. Pollution carried in rainwater runoff is another concern, especially in urban areas. Storm water flowing across streets, parking lots and sidewalks pick up contaminants associated with air pollution particles, spilled oil, detergents, solvents, dead leaves, pesticides, fertilizer, and bacteria from pet waste. Natural filtration of water through soil is the simplest way to control these pollutants, and is a direct advantage of permeable pavement.
Fig. 1: Permeable Pavement Demonstration
Cross-Section of a Permeable Pavement SystemGenerally, all permeable pavement types have the same general structures as shown in fig.2
Fig.2: Cross-Section of a Typical Block Paver Permeable Pavement InstallationThe permeable pavement system comprises given distinct components
Pavers and Bedding Layer in Permeable PavementsPervious material (pavers) and fill are considered surface layer or cover. This forms the top layer which is exposed outside. It is identified by the type of pavement used, such as permeable concrete, permeable interlocking concrete pavers filled with gravel etc. Bedding layer is the material on which the paving units are bedded, facilitating the free passage of water through the underlying sub-base layers.
Gravel base in Permeable Pavement SystemGravel base in permeable pavements lies beneath the surface layer. Like in case of other pavement types, permeable concrete does not require a gravel or aggregate support layer to bear the loads of vehicles. Gravel base also stores water during and immediately after a storm. Despite the fact that permeable concrete does not need an aggregate base layer for structural support, such a layer is often included in permeable concrete designs so that additional water can be stored. The sub-base layer is often the main load-bearing layer of a permeable pavement. It is designed to evenly spread the load of the paving to the subgrade below. A well-constructed sub-base in pavements helps in drainage and prevents settlement and channelization.
Subgrade of Permeable Pavement SystemSubgrade is the soil layer immediately below the base layer of pavements. The subgrade is compacted during construction of the permeable system. Subgrade is also known as in situ soil or underlying soil or Formation Level which is the level at which excavation ceases and construction starts: it's the lowest point of the pavement structure.
Underdrains in PPSThe underdrains provided in permeable pavements are typically small plastic pipes. These drainage pipes are located at or near the bottom of the subgrade (fig.3) to collect water and convey it to the storm sewer network. Underdrains are most often used when permeable pavements are located in soils that contain clay and high water table.
Use of Geotextiles in PPSGeotextile help to prevent sand from migrating into the base of permeable pavement system. In a permeable base course, the presence of geotextile helps to reduce the rutting depth and rate of block breakage, maintaining a good level of pavement serviceability such as easy cleaning.
Fig.3: PPS with Underdrains
Hydrological Terminology used in Permeable Pavement ConstructionMovement of water through the permeable pavement is controlled by the following Runoff: Amount of water leaving (or shedding) the surface of the pavement. This water enters the storm sewer network. Drainage: Water that has passed through the surface of the pavement may still be recollected in under- drain pipes. This water is also discharged to the storm sewer network. Outflow: The total water leaving a pavement application and entering the storm sewer network. With permeable pavement, outflow is the sum of runoff and drainage. An impermeable pavement’s outflow is simply equal to runoff. Exfiltration/Infiltration: Water that leaves the bottom or sides of the pavement and enters the soil. Water exfiltrates from the pavement base layer. It infiltrates the surrounding soil. Evaporation/Evapotranspiration: Water stored in puddles on an impermeable surface or temporarily trapped near the surface of pavement will eventually evaporate to the atmosphere. If plants aid in the release of water to the atmosphere, as some permeable pavements are designed to be vegetated, this process is termed evapotranspiration.
Fig.4: Hydrologic Pathways for Permeable Pavement
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