Pervious Concrete Pavement
A solution for sustainable communities
In recent years, the development
community, permitting agencies, engineers, and owners have been seeking out new
and innovative ways to reduce stormwater runoff and build low-impact,
sustainable communities. One of the “new and innovative” ways that assist in
these efforts just might be a product that has actually been around for some
time—pervious concrete.
History and Uses
Pervious
concrete, in its earliest form, has been in use for more than 150 years,
although it was not until a little over 20 years ago that it was successfully
employed in various applications in the United States (American Concrete
Institute 2006). The development community has now found many ways to
incorporate pervious concrete into practice; some of these include tree
protection, stormwater runoff reduction, and increased pervious area on a site
(Offenberg 2005a).
 |
| Side-by-side view of
pervious and plain concrete joints |
With the rising focus on stormwater
treatment, pervious concrete is becoming a viable option for owners and
designers to consider. Typical pervious concrete consists of cement, gravel, and
water with generally no fine aggregates in the mixture. Typically, the absence
of fine aggregate permits properly placed pervious concrete to be composed of
15% to 20% void space, which allows stormwater to pass through the pavement.
This percolation allows for a recharge of groundwater tables, and the system can
be a key tool in the effort to reduce stormwater runoff.
Pervious concrete pavement has also
been permitted within the drip-lines of trees, as the pavement allows for the
passage of air to the tree roots. Because the roots are obtaining sufficient
air, they will tend to grow out and not up, thus preventing the surface of the
pavement from popping up.
Many permitting agencies also
permit pervious pavements to be used to contribute to the impervious surface
ratio. This pavement can often be permitted at various levels of perviousness,
but typical values range from 50% to 100%, depending on the local regulations.
Design
Considerations
Proper design is one of the first steps to making the
system function properly, with a key element being the thickness of the
concrete. Here, the thickness requirements may be based on traffic conditions,
stormwater storage, or even subgrade conditions. Higher traffic volumes may
require thicker sections, but sections typically vary from 6 to 8 inches. The
higher stress levels that exist around the free edge of pavements may
necessitate a thickened edge or curbing.
 |
| Proper placement is an
important part of a pervious concrete system.
|
A project at the Veterans
Administration hospital in Riviera Beach, FL, used a curbed pervious concrete
pavement parking lot in an environmentally sensitive area in 2004. This parking
lot expansion consisted of 80,000 square feet of 6-inch pervious concrete placed
on a 6-inch bed of clean #57 aggregate with perimeter curbing. In this case, the
system was designed with rock and curb to contain higher levels of volume and to
protect nearby environmentally sensitive areas.
When the pavement, as well as the
subgrade and volume above the pavement, are used to retain a volume of water, it
will likely be necessary to install curbing around the perimeter of the pavement
to contain the entire volume. Credits that can be achieved vary by local
jurisdiction, so it is important to verify local regulations to make sure the
credits are optimized for each application.
Pervious concrete pavement is
typically used in light- to medium-duty traffic applications, such as parking
lots, subdivision streets, driveways, or sidewalks. Today’s technology is not
well suited to heavier-duty applications, such as sites with constant heavy
truck traffic, but advances in the future may permit such applications.
In addition to pavement thickness,
history has shown that the subgrade is a crucial element of the system. Sections
of pavement by themselves have shown astronomically high (2,000 inches per hour)
percolation rates, so it was observed that overall infiltration rates of the
system are generally controlled by the subgrade. The minimum percolation rate of
a subgrade should be incorporated into the overall site drainage design. An
overcompacted subgrade will lead to lower percolation rates of the system. In
some cases, it may be necessary to install a layer of clean rock on top of the
subgrade to provide some additional infiltration capacity.
 |
| Pervious concrete
pavement installed at the VA hospital in Riviera Beach, FL |
 |
| Compaction of pervious
concrete pavement may be performed with a steel pipe roller.
|
Construction
Practices
A successful
placement depends not only on correct design practices but also on correct
installation procedures (Offenberg 2005b). It is therefore up to the project
team to ensure that the contractor selected to perform the work follows the
proper placement methods from start to finish. As a part of the National Ready
Mixed Concrete Association’s Pervious Concrete Contractor Certification Program,
contractors can achieve either technician or craftsman levels of certification.
Proper placement methods typically
include the following steps:
- Placement. Prior to
concrete placement, the properties of the subgrade should be verified for
compliance with the project plans and specifications. The concrete should be
placed as close to its final location as possible. It can be conveyed, buggied,
or bucketed, but not pumped, to its final location.
- Strike off. After
placement, the concrete is struck off with some type of vibratory screed. It is
typically struck off about three-eighths to 0.5 inch high to allow for the
compaction operation.
- Compaction. Next, the
pavement is rolled with a steel pipe roller to provide some compaction. It is
important not to overcompact in this step, as the void space may be reduced if
overcompaction occurs.
- Jointing. Joints are
important to any concrete pavement, and this is no exception with pervious
concrete. Joints are typically cut at the time of placement with a hand tool.
This tool is usually a roller with a cutting disk in the center to cut to a
depth of 0.25 inch.
- Curing. Aside from edging
the pavement, the final step is the curing process. It is vital that a pervious
concrete pavement receive proper curing. For this step, the pavement should be
covered within 20 minutes of the strike-off step and should remain covered for a
minimum of seven days. During this time, no traffic should be permitted on the
pavement.
The American Concrete Institute
Committee 522 has just published the 522R-06 document, which is a guide to the
use of pervious concrete. The committee is also diligently working to complete
the 522.1 specification, which will provide guidance for specifiers who may be
incorporating the material into their projects.
 |
| Pervious concrete
pavement used in parking stalls |
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Maintenance
Maintenance
of pervious concrete pavements is a subject of longstanding debate. Proper
maintenance generally consists simply of vacuum sweeping or power washing.
Ongoing research shows that systems that are not maintained still perform very
well over time (Wanielista et al. 2005), but not at their original astronomical
infiltration rates. However, a good cleaning generally will improve the
infiltration rate of the system. Some permitting agencies require maintenance
agreements prior to putting a pervious concrete pavement into service, or
include language in their codes requiring periodic inspections and maintenance.
Similar to nearly all other stormwater treatment tools, proper maintenance will
keep the system running at higher performance levels.
What’s to
Come
The future of
pervious concrete may give an idea of what is to come with the technology. Many
improvements have been made in a relatively short time, in the areas of both
design and construction. Currently, there is extensive research under way to
review various aspects of pervious concrete pavements, including freeze/thaw
performance, pollutant treatment, and long-term performance. The research list
continues, but as we endeavor to further develop our precious resource more
carefully, pervious concrete pavements will likely be an important element of
the push to build low-impact, sustainable communities for the future.
Author's Bio: Michael Davy, P.E., is a pavement design engineer for Rinker Materials’ Florida Materials Division. He received his bachelor’s degree in civil engineering from the Georgia Institute of Technology and is a licensed engineer in Florida.
October 2006
Pervious Concrete Pavement
A solution for sustainable communities
In recent years, the development
community, permitting agencies, engineers, and owners have been seeking out new
and innovative ways to reduce stormwater runoff and build low-impact,
sustainable communities. One of the “new and innovative” ways that assist in
these efforts just might be a product that has actually been around for some
time—pervious concrete.
History and Uses
Pervious
concrete, in its earliest form, has been in use for more than 150 years,
although it was not until a little over 20 years ago that it was successfully
employed in various applications in the United States (American Concrete
Institute 2006). The development community has now found many ways to
incorporate pervious concrete into practice; some of these include tree
protection, stormwater runoff reduction, and increased pervious area on a site
(Offenberg 2005a).
|
| Side-by-side view of
pervious and plain concrete joints |
With the rising focus on stormwater
treatment, pervious concrete is becoming a viable option for owners and
designers to consider. Typical pervious concrete consists of cement, gravel, and
water with generally no fine aggregates in the mixture. Typically, the absence
of fine aggregate permits properly placed pervious concrete to be composed of
15% to 20% void space, which allows stormwater to pass through the pavement.
This percolation allows for a recharge of groundwater tables, and the system can
be a key tool in the effort to reduce stormwater runoff.
Pervious concrete pavement has also
been permitted within the drip-lines of trees, as the pavement allows for the
passage of air to the tree roots. Because the roots are obtaining sufficient
air, they will tend to grow out and not up, thus preventing the surface of the
pavement from popping up.
Many permitting agencies also
permit pervious pavements to be used to contribute to the impervious surface
ratio. This pavement can often be permitted at various levels of perviousness,
but typical values range from 50% to 100%, depending on the local regulations.
Design
Considerations
Proper design is one of the first steps to making the
system function properly, with a key element being the thickness of the
concrete. Here, the thickness requirements may be based on traffic conditions,
stormwater storage, or even subgrade conditions. Higher traffic volumes may
require thicker sections, but sections typically vary from 6 to 8 inches. The
higher stress levels that exist around the free edge of pavements may
necessitate a thickened edge or curbing.
|
| Proper placement is an
important part of a pervious concrete system.
|
A project at the Veterans
Administration hospital in Riviera Beach, FL, used a curbed pervious concrete
pavement parking lot in an environmentally sensitive area in 2004. This parking
lot expansion consisted of 80,000 square feet of 6-inch pervious concrete placed
on a 6-inch bed of clean #57 aggregate with perimeter curbing. In this case, the
system was designed with rock and curb to contain higher levels of volume and to
protect nearby environmentally sensitive areas.
When the pavement, as well as the
subgrade and volume above the pavement, are used to retain a volume of water, it
will likely be necessary to install curbing around the perimeter of the pavement
to contain the entire volume. Credits that can be achieved vary by local
jurisdiction, so it is important to verify local regulations to make sure the
credits are optimized for each application.
Pervious concrete pavement is
typically used in light- to medium-duty traffic applications, such as parking
lots, subdivision streets, driveways, or sidewalks. Today’s technology is not
well suited to heavier-duty applications, such as sites with constant heavy
truck traffic, but advances in the future may permit such applications.
In addition to pavement thickness,
history has shown that the subgrade is a crucial element of the system. Sections
of pavement by themselves have shown astronomically high (2,000 inches per hour)
percolation rates, so it was observed that overall infiltration rates of the
system are generally controlled by the subgrade. The minimum percolation rate of
a subgrade should be incorporated into the overall site drainage design. An
overcompacted subgrade will lead to lower percolation rates of the system. In
some cases, it may be necessary to install a layer of clean rock on top of the
subgrade to provide some additional infiltration capacity.
|
| Pervious concrete
pavement installed at the VA hospital in Riviera Beach, FL |
|
| Compaction of pervious
concrete pavement may be performed with a steel pipe roller.
|
Construction
Practices
A successful
placement depends not only on correct design practices but also on correct
installation procedures (Offenberg 2005b). It is therefore up to the project
team to ensure that the contractor selected to perform the work follows the
proper placement methods from start to finish. As a part of the National Ready
Mixed Concrete Association’s Pervious Concrete Contractor Certification Program,
contractors can achieve either technician or craftsman levels of certification.
Proper placement methods typically
include the following steps:
- Placement. Prior to
concrete placement, the properties of the subgrade should be verified for
compliance with the project plans and specifications. The concrete should be
placed as close to its final location as possible. It can be conveyed, buggied,
or bucketed, but not pumped, to its final location.
- Strike off. After
placement, the concrete is struck off with some type of vibratory screed. It is
typically struck off about three-eighths to 0.5 inch high to allow for the
compaction operation.
- Compaction. Next, the
pavement is rolled with a steel pipe roller to provide some compaction. It is
important not to overcompact in this step, as the void space may be reduced if
overcompaction occurs.
- Jointing. Joints are
important to any concrete pavement, and this is no exception with pervious
concrete. Joints are typically cut at the time of placement with a hand tool.
This tool is usually a roller with a cutting disk in the center to cut to a
depth of 0.25 inch.
- Curing. Aside from edging
the pavement, the final step is the curing process. It is vital that a pervious
concrete pavement receive proper curing. For this step, the pavement should be
covered within 20 minutes of the strike-off step and should remain covered for a
minimum of seven days. During this time, no traffic should be permitted on the
pavement.
The American Concrete Institute
Committee 522 has just published the 522R-06 document, which is a guide to the
use of pervious concrete. The committee is also diligently working to complete
the 522.1 specification, which will provide guidance for specifiers who may be
incorporating the material into their projects.
|
| Pervious concrete
pavement used in parking stalls |
Maintenance
Maintenance
of pervious concrete pavements is a subject of longstanding debate. Proper
maintenance generally consists simply of vacuum sweeping or power washing.
Ongoing research shows that systems that are not maintained still perform very
well over time (Wanielista et al. 2005), but not at their original astronomical
infiltration rates. However, a good cleaning generally will improve the
infiltration rate of the system. Some permitting agencies require maintenance
agreements prior to putting a pervious concrete pavement into service, or
include language in their codes requiring periodic inspections and maintenance.
Similar to nearly all other stormwater treatment tools, proper maintenance will
keep the system running at higher performance levels.
What’s to
Come
The future of
pervious concrete may give an idea of what is to come with the technology. Many
improvements have been made in a relatively short time, in the areas of both
design and construction. Currently, there is extensive research under way to
review various aspects of pervious concrete pavements, including freeze/thaw
performance, pollutant treatment, and long-term performance. The research list
continues, but as we endeavor to further develop our precious resource more
carefully, pervious concrete pavements will likely be an important element of
the push to build low-impact, sustainable communities for the future.