Pervious concrete

About: Pervious concrete is a research topic. Over the lifetime, 2920 publications have been published within this topic receiving 27720 citations. The topic is also known as: porous concrete & permeable concrete.

Use of carbonation curing to improve mechanical strength and durability of pervious concrete

Abstract: Carbonation curing is a promising method for CO2 sequestration and strength improvement of cement-based materials. For normal cement concretes, the carbonation dominantly occurs in the outer layer ...

Removal effect on stormwater runoff pollution of porous concrete treated with nanometer titanium dioxide

Abstract: Development of the cities is facing many problems; one of them is runoff water pollution. On the other hand, some technologies have been applied to remove water pollution such as the photocatalytic effect method using nano-titanium dioxide (nTiO2). That technology exhibited a significant effect to remove various pollutants from runoff water. The use of nTiO2 on porous concrete (TPC) considers a new technology, which is effective and clean technology to deal with the non-point source pollution. In this paper, the permeability, mechanical properties and water purification capacity of using that technology have been investigated to analyze the environmental effect of TPC. In addition, this study tested the environmental impact using zebrafish aquatic toxicity and alkali dissolution experimentally. Moreover, the photocatalytic oxidation reaction of TPC is exploited to detect the purification effects of three typical pollutants, i.e., methylene blue, total phosphorus, and ammonia nitrogen. At the same time, three different application methods with three different concentrations of nTiO2 have been utilized in the porous concrete to obtain the optimum value. The removal effectiveness in pollutants is also measured, moreover the purification durability effectiveness is tested. After culturing the zebrafish embryos in the leachate of porous concrete with nTiO2, the hatching rate was 91.7%, which proved that this technology has little aquatic toxicity to organism and environment. The capacity of pollutants removing was effective and reached up to 60%-90%. Besides, porous concrete treated by nTiO2 that was placed in actual weather for a month showed a half reduction in water purification effect.

Planar Image-Based Reconstruction of Pervious Concrete Pore Structure and Permeability Prediction

Abstract: The permeability of pervious concrete is discussed in this paper. Transport properties of porous materials such as pervious concretes are inherently dependent on a variety of pore structure features. Empirical equations are typically used to relate the pore structure of a porous material to its permeability. In this study, a computational procedure is employed to predict the permeability of 12 different pervious concrete mixtures from three-dimensional (3D) material structures reconstructed from starting planar images of the original material. Two-point correlation (TPC) functions of the two-dimensional (2D) images from real pervious concrete specimens are employed along with the measured volumetric porosities in the reconstruction process. The pore structure features of the parent material and the reconstructed images are found to be similar. The permeabilities predicted using Darcy’s law applied to the reconstructed structures and the experimentally measured permeabilities of pervious concretes are found to be in reasonably good agreement. The 3D reconstruction process provides a relatively inexpensive method (instead of methods such as X-ray tomography) to explore the nature of the pore space in pervious concretes and predict permeability, thus facilitating its use in understanding the changes in pore structure as a result of changes in mixture proportions.