Pervious Concrete its Application & Advantages

Pervious Concrete: Applications, Advantages and Installation

Pervious concrete is a sustainable and innovative type of concrete that offers a range of benefits for construction projects. Unlike traditional concrete, it allows water to pass through, reducing the risk of flooding and improving groundwater recharge.

There various discuss about pervious concrete and its application in different industries, and the installation process. Whether you are a contractor, architect, or property owner, understanding the benefits of pervious concrete can help you make informed decisions and create sustainable, long-lasting structures.

Pervious Concrete

Pervious concrete, also known as permeable or porous concrete, is a special type of concrete designed to allow water to pass through its surface, promoting water infiltration and reducing runoff. It consists of a mixture of coarse aggregates, cement, water, and sometimes admixtures, with minimal or no fine aggregates. The absence of fine particles creates voids that enable water to permeate through the material.

Pervious Concrete
Pervious Concrete

Pervious concrete is utilized in various applications, such as parking lots, driveways, sidewalks, and other surfaces where stormwater management is crucial. Its permeability helps prevent water runoff, recharge groundwater, and reduce the risk of flooding. This environmentally friendly material contributes to sustainable urban development by addressing water runoff challenges in a permeable and eco-conscious way.

The following are the applications of previous concrete,

1. Stormwater Management

It helps in regulating the runoff and is considered the best technique for stormwater management. The primary use of pervious concrete is in pavement construction.

This concrete is even recognized by the U.S. Environmental Protection Agency- EPA as a technique that can give the best first-flush pollution control and stormwater management.

Drainage systems take up huge spaces and are costly too. Pervious concrete retains the water at the site, therefore, reducing the size of the storm sewers. The water is allowed to infiltrate into the soil and thus, the amount of runoff is decreased.

This concrete acts as an infiltration basin and allows the water to infiltrate, groundwater recharge is enhanced too. The depleting levels of groundwater can thus be controlled.

Concrete Road Section
Stormwater Management

Another advantage of pervious concrete pavement for stormwater management is that it filters the stormwater prior to its infiltration. Thus, the pollutant load is prevented from entering the groundwater.

This concrete also allows the passage of air along with water. This aids in the development of trees, as they require a sufficient amount of air too.

Laying a strip of pervious concrete alongside the pavement can thus be helpful.

Pervious Concrete Road Surface
Pervious Concrete Road

2. External Walls

Its usage as external load-bearing walls in single-story, as well as multi-story buildings, is complemented by its insulating property. As its coefficient of thermal expansion is relatively lower, it offers heat insulation.

Also, plastering can be easily done on the walls of pervious concrete owing to its rough texture.

Low capillary action in pervious concrete resists the dampness inside the building even though the outer walls get wet.

It is also suitable at places where fine sand is not easily available.

3. Sustainable Construction

As the color of the pervious concrete is light, it also aids in energy savings. The concrete reflects the light and thus need for lighting at night is reduced. As per U.S. EPA, about 90 % of surface pollutants are carried by the runoff of the first 1.5 inches of rainfall.

Traditionally designed stormwater drains do not divert this water to treatment plants but into local water bodies. As a result, algal growth is enhanced in the water body and aquatic life may be harmed too. Its treatment for making the water potable again is expensive.

The third pollutant is formed by the hydrocarbons. One of the sources of hydrocarbon is the oil dripping from the vehicles onto the pavement. However, its major source is asphalt. In the urban runoff, 90-95 % of the hydrocarbon comes from the binder and sealant used in asphalt pavements as per the studies.

These form serious environmental issues, which are addressed by EPA, regional watershed authorities and local authorities by regulating stormwater management more strictly.

Pervious concrete is thus becoming a popular solution to this concern. The reasons are listed below:

  • It reduces the amount of untreated runoff water from reaching the storm sewers as it enhances infiltration at the site.
  • Aquifer levels are refilled too as groundwater recharge is facilitated directly.
  • More water is channeled towards the trees and landscaping, this reduces the need for irrigation water.
  • Pollutants are prevented from contaminating the watersheds and thus the sensitive ecosystems are not harmed.
  • Hydrocarbon pollution coming from asphalt pavements is also eliminated.

4. Parking Areas

Pervious Concrete Parking Area
Parking Areas

Pervious types of concrete have found its application, especially in pavements of parking areas and parks.

As the pervious concrete absorbs the water, the stagnant water puddles are reduced. This eases the walkway in parks and ensures safety for drivers on the pavement.

5. Residential Street and Light Traffic Areas

The urban heat-island effect is reduced by the usage of pervious-type concrete.

This is owing to the fact that the concrete is light in color and has an open-cell structure. Hence, less heat is absorbed by previous concrete and thus less heat is radiated into the environment.

The open void structure of the pervious concrete also helps in keeping the surface cool owing to the cooler temperature of the soil below.

Read More: Self-Compacting Concrete Test & Result

Maintaining the permeability of pervious concrete is essential for it to function well. For this, regular cleaning should be done. The surface of the concrete is wet and then vacuum sweeping is done for cleaning the surface.

The following are advantages of pervious concrete,

  • To manage the stormwater runoff effectively.
  • To reduce the size and number of storm sewers.
  • To recharge the groundwater.
  • To prevent the pollution of groundwater by aiding in the filtration of water before infiltration.
  • To eliminate the harm to sensitive ecosystems.
  • To reduce the heat island effect.
  • To enhance land use by omitting the need for retention ponds.
  • To eliminate the surface ponding.
  • To induce the heat-insulating properties in the walls of a building.
  • To enable easy plastering owing to its rough surface texture.
  • To eliminate the hydrocarbon pollution coming from asphalt pavement surfacing.
  • To reduce the cost of construction.

The following are disadvantages of previous concrete,

  • Cannot be used for the pavements where heavy traffic flow is expected.
  • Requires specialized construction practice.
  • Quite sensitive to the water content.
  • Difficult to determine the water content in fresh concrete.
  • Tests like slump test or compaction factor test are not applicable.
  • Requires much longer curing time.
  • Requires special consideration during the design in the soils susceptible to frost and expansive soils.
  • Periodic cleaning of pervious concrete pavement is required to maintain its permeability.

The following are pervious concrete properties,

1. Constituents

Pervious concrete mainly consists of cement, coarse aggregates, and water. Sometimes admixtures are added too. The size of the coarse aggregates should range from 10 mm to 20 mm. Fine aggregates can be added in a meager amount to increase strength or avoided.

Aggregate cement ratio for concrete is generally kept 6:1 to 10:1. Aggregates having sharp edges are also avoided as local crushing may take place when loaded.

2. Water-Cement Ratio

The water-cement ratio of concrete is generally kept between 0.28-0.40. The right quantity of water is crucial in pervious concrete. Adding more water will affect its strength but very low water may cause surface failure, as aggregates will not be properly smeared by cement paste.

A higher water-cement ratio will cause cement paste to flow to the bottom during compaction and the voids at the bottom will be filled up. If the water-cement ratio is proper, then the mixture has a wet metallic appearance. The mixture is checked in the field, as pervious concrete is sensitive to the water content.

To check the consistency of the mix, no standard method like slump test or compaction factor test is applicable for pervious concrete. Visual examination by an experienced person and trial and error methods are used to determine the water-cement ratio for concrete.

3. Density

The density of pervious concrete mainly depends upon the grading of aggregate. For the aggregates with same specific gravity, the density of (one-size aggregate) concrete is about 10 times less as compared to that of well-graded aggregate.

By using low-weight aggregates, concrete of density about 640 kg/m3 can also be obtained. While the concrete with normal weight aggregate forms the concrete with a density of 1600-2000 kg/m3.

4. Flow Rate

The permeability or flow rate of concrete depends on the type of materials used in its mixing and placing operations. Flow rate for water through pervious concrete is generally 288 in/hr to 770 in/hr.

5. Void Ratio

Because of the omission of fine aggregates, the void ratio is increased. It is about 15-25 % in pervious concrete.

Large voids may also lead to entrapped air. The quantity of entrapped air may be checked by the Rapid Air System. In this test, the concrete is stained black and then the section is observed under a microscope.

6. Compaction

Compaction of concrete should be done to increase the compressive strength. However, over compaction should be avoided as it may reduce the permeability even though strength is increased. So, vibration is applied for a very short time for pervious concrete.

Higher compaction is not recommended as it can result in the high local density of the concrete. Mechanical compaction is also not required. Simple rodding may suffice the compaction needs of the pervious concrete.

7. Compressive Strength

The compressive strength of this concrete is quite low as compared to normal concrete. However, it is sufficient for use in buildings up to certain stories and other applications. The compressive strength of pervious concrete varies between 14 N/mm2 to 140 N/mm2.

Normally, this type of concrete is not reinforced. But, if the need arises, then the reinforcement is given a coating of cement paste about 3 mm thick. This improves bond strength and prevents corrosion too. The coating is primarily applied via concreting.

8. Flexural Strength

The flexural strength of pervious concrete is between 10 N/mm2 to 38 N/mm2.

Factors affecting flexural strength include

  • Degree of compaction
  • Porosity
  • A/C ratio

The flexural strength is not of much significance in the applications of pervious concrete.

9. Segregation

it does not exhibit segregation. Hence, it can be dropped from a considerable height.

10. Shrinkage

The value of drying shrinkage of pervious concrete is quite low as compared to conventional concrete. This is because of the large volume of aggregates as compared to cement paste, which restrains contraction.

The value of drying shrinkage of pervious concrete made with river gravel was reduced by half as compared to the traditional concrete. It is of the order 120 * 10-6 to 200 * 10-6. The low value of drying shrinkage is because of the Presence of a very thin layer of cement paste between aggregates Point to point contact between aggregates

Though the value is low, the rate of drying shrinkage is much more as compared to conventional concrete. This is because a large amount of cement is exposed to air initially.

In 10 days, the drying shrinkage of conventional concrete is about 20-30 % while that of pervious concrete is about 50-80 %. The drying shrinkage in this concrete is totally completed in about a month.

11. Thermal Conductivity

The thermal conductivity of the pervious concrete is much less as compared to the of conventional concrete. Thermal conductivity depends largely on the type of aggregates used in the concrete.

12. Sulphate Resistance

Aggressive chemicals like acids and sulphates if present in either soil or water prove detrimental to the concrete- whether it is conventional concrete or pervious concrete. Even their attack mechanisms are similar.

The open structure of this concrete makes it more susceptible to damage by sulphates.

13. Abrasion Resistance

Pervious concrete has a rough surface texture and open structure. Hence, the abrasion resistance of pervious concrete is not much.

This is a major reason as to why pervious concrete is not suitable for highways.

14. Frost Resistance

Frost resistance of pervious concrete is quite good because of the absence of capillary.

However, it decreases if the pores are fully saturated. Also, the rapid disintegration of concrete takes place in such a case.

Read More: 10+ Stamped Concrete Process Step by Step Guide

The Cost of Pervious Concrete is reduced considerably as sand is eliminated. While preparing lean mixes, the cement used is as little as 70-130 kg/m3 of concrete.

With the reduced use of cement, the cost is lowered significantly. Pervious Concrete Costs is around 2 to 7 dollars per Square feet in USA.

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