Correlation between Permeability and Porosity for Pervious Concrete (PC)

Sandoval, Gersson F.B.; Galobardes, Isaac; Cezario, Nicole Schwantes; Campos, A. de; Toralles, Berenice Martins

doi:10.15446/dyna.v86n209.77613

Cited by 29 publications

(5 citation statements)

References 39 publications

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“…Figure 14 shows that for a certain mixture, the porosity can also be estimated by the compaction energy (Equation 1). Porosity, in turn, is the parameter that most affects the pervious concrete hydraulic conductivity [65]. Although Equation 4 may be used to describe the material hydraulic behavior, the relation between porosity and hydraulic conductivity may be represented by a simpler regression model, based on the Kozeny-Carman equation [34], [66], presented in Equation 5.…”

Section: Influence Of Compaction Energy In Mixture Design Parametersmentioning

confidence: 99%

Influence of compaction energy on pervious concrete properties and vertical porosity distribution

Mikami

Pieralisi

Pereira

2024

Rev. IBRACON Estrut. Mater.

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Compaction is a fundamental step in pervious concrete production and affects its mechanical and hydraulic properties. In this study, two pervious concrete mixtures were compacted with three different energies, distributed in two and three layers. The effects on porosity, mechanical strength and hydraulic conductivity were evaluated. The increase in compaction energy resulted in a proportional reduction in porosity. Increases in compressive strength from 17 to 36% were observed. However, permeability reduced proportionally, with decreases of 0.2 to 0.4 cm/s. The three-layer compaction resulted in a more homogeneous vertical distribution of porosity when compared to the two-layer compaction. Although the aggregate/cement ratio was the most influential parameter, the compaction energy should also be considered in the pervious concrete mixture design. While increasing the compaction energy enhances the mechanical strength of pervious concrete, excessive compaction may cause the fracture of the coarse aggregate, reducing its mechanical and hydraulic performance. Thus, for each mixture an optimum compaction energy can be defined to maximize the performance of pervious concrete.

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Section: Influence Of Compaction Energy In Mixture Design Parametersmentioning

confidence: 99%

Influence of compaction energy on pervious concrete properties and vertical porosity distribution

Mikami

Pieralisi

Pereira

2024

Rev. IBRACON Estrut. Mater.

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“…e above results are on par with Fu et al [45], where porosity increases with aggregate size. Ibrahim et al [46] calculated the density for aggregate-cement ratio of 8, water-cement ratio of 0.35 Sandoval et al [11] Cai et al [42] Azad et al [13] Zhu et al [43] Lori et al [14] e current paper 4. e concrete mix has porosity values in tandem with the literature as shown in Figure 6.…”

Section: Porosity and Densitymentioning

confidence: 99%

“…e governing equations and their R 2 values are tabulated in Table 7. e x values are the 0 Mohammed et al [44] Sandoval et al [11] Cai et al [42] Azad et al [13] Zhu et al [43] Lori et al [14] e current paper Sandoval et al [11] Cai et al [42] Azad et al [13] Zhu et al [43] Lori et al [14] e current paper Comparing the permeability due to clogging with the standards tabulated in Table 4, the clogging of clay and sand on the pervious concrete with the narrow gradation of 2.36-4.75 mm causes the permeability value to go below the minimum value of 1 mm/s as per the American guidelines ACI 522R-10 and the Brazilian standards NBR 16416 : 2015. Also, after the first clogging cycle on the above mix, the value is below the minimum of 1.5 m/s as per the guidelines by Finland Technical Research Center VTT-R-080225-13.…”

Section: Clogging Potentialmentioning

confidence: 99%

Hydraulic Performance of Pervious Concrete Based on Small Size Aggregates

Mulu

Jacob

Dwarakish

2022

Advances in Materials Science and Engineering

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The paper aims to study the impact of clogging on pervious concrete mixes and explore a simple method to calculate permeability and clogging using the falling head method in a fabricated unit. The materials used are cementitious materials and aggregates, along with superplasticizers. The cementitious materials used are OPC Grade 53 cement and micro Ground Granulated Blast Furnace Slag (μGGBS). Two separate narrow aggregate gradations are used: 2.36–4.75 mm and 4.75–6.30 mm. The water-binder ratio is taken as 0.25, and the aggregate-binder ratio is taken as 3.33. The compressive strength, permeability, and clogging potential of pervious concrete are calculated. The average permeability for 2.36–4.75 mm and 4.75–6.3 mm is 4.78 mm/s and 8.16 m/s, respectively. The clogging materials used are clay and sand with a concentration of 5 g/l. The introduction of clay slurry reduces the permeability by 69.8% and 74.9%, respectively, and with sand, it decreases by 74.7% and 71.7%, respectively, in its first cycle. The permeability response for such small aggregates is different from the standard coarse aggregates. The paper compares the study’s compressive strength, porosity, and permeability with the existing literature. It concludes that the maximum clogging occurs when the clogging material is introduced to the specimen for the first time. The degradation of permeability depends on the clogging particle’s particulate size and the concrete matrix’s pore size. The smaller aggregates in pervious concrete are not recommended in areas of high siltation.

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“…In another study, PC specimens were produced using basalt aggregates with a specific size of 4.75-9.5 mm, and #42.5 Portland cement [11]. Basalt aggregates had a larger fine grain content than the other types, reducing the ultimate porosity [139]. Accord-ing to Table 1, the dry density, saturated density, bulk density and water absorption of basalt aggregates were 2230 kg/m 3 , 2670 kg/m 3 , 1500 kg/m 3 and 1.20%, respectively.…”

Section: Coarse and Fine Aggregatesmentioning

confidence: 99%

Stormwater Runoff Treatment Using Pervious Concrete Modified with Various Nanomaterials: A Comprehensive Review

et al. 2021

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Clean water is a vital need for all living creatures during their lifespan. However, contaminated stormwater is a major issue around the globe. A wide range of contaminants, including heavy metals, organic and inorganic impurities, has been discovered in stormwater. Some commonly utilized methods, such as biological, physical and chemical procedures, have been considered to overcome these issues. However, these current approaches result in moderate to low contaminant removal efficiencies for certain classes of contaminants. Of late, filtration and adsorption processes have become more featured in permeable concretes (PCs) for the treatment of stormwater. As nanoparticles have vast potential and unique characterizations, such as a higher surface area to cure polluted stormwater, employing them to improve permeable concretes’ capabilities in stormwater treatment systems is an effective way to increase filtration and adsorption mechanisms. The present study reviews the removal rate of different stormwater contaminants such as heavy metals, organic and other pollutants using nanoparticle-improved PC. The application of different kinds of nanomaterials in PC as porous media to investigate their influences on the properties of PC, including the permeability rate, compressive strength, adsorption capacity and mix design of such concrete, was also studied. The findings of this review show that different types of nanomaterials improve the removal efficiency, compressive strength and adsorption capacity and decrease the infiltration rate of PC during the stormwater treatment process. With regard to the lack of comprehensive investigation concerning the use of nanomaterials in PC to treat polluted stormwater runoff, this study reviews 242 published articles on the removal rate of different stormwater contaminants by using PC improved with nanoparticles.

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Correlation between Permeability and Porosity for Pervious Concrete (PC)

Cited by 29 publications

References 39 publications

Influence of compaction energy on pervious concrete properties and vertical porosity distribution

Influence of compaction energy on pervious concrete properties and vertical porosity distribution

Hydraulic Performance of Pervious Concrete Based on Small Size Aggregates

Stormwater Runoff Treatment Using Pervious Concrete Modified with Various Nanomaterials: A Comprehensive Review

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