Experimental study on alkali reduction of film-coated porous ecological concrete by microbial calcium carbonate precipitation technology
Abstract Some plants do not grow due to the high pH levels of ecological concrete pore solutions. In this paper, we design and build an integrated device featuring a combined microbial film and a transverse/U-shaped grouting film. We have applied to the China Intellectual Property Office for an inve...
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Nature Portfolio
2024-01-01
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Series: | Scientific Reports |
Online Access: | https://doi.org/10.1038/s41598-023-50637-9 |
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author | Bingxia Wang Bo Yang Lu Wang Bo Lian Xiaolei Wu |
author_facet | Bingxia Wang Bo Yang Lu Wang Bo Lian Xiaolei Wu |
author_sort | Bingxia Wang |
collection | DOAJ |
description | Abstract Some plants do not grow due to the high pH levels of ecological concrete pore solutions. In this paper, we design and build an integrated device featuring a combined microbial film and a transverse/U-shaped grouting film. We have applied to the China Intellectual Property Office for an invention patent on this device. The device overcomes the blockage of the grouting port caused by microbial and vertical grouting. The vertical grouting tube leaves holes inside a specimen, reducing the compressive strength, while the integrated device optimizes and decreases variation in the recycling of microbial bacteria. The reduction in the pore alkalinity of porous ecological concrete resulting from the microbial grouting film of this device is larger than that resulting from a microbial sprayed film. The pH values of porous ecological concrete with microbial grouting films and microbial sprayed films are obtained by the pure slurry soaking method and solid–liquid extraction method, respectively. The pH value is lower for the film obtained by the pure slurry soaking method than for that obtained by the solid–liquid extraction method. Conversely, the pH value of porous ecological concrete with a microbial grouting film is reduced to approximately 8 at an age of 56 days. The compressive strengths of the porous ecological concrete specimens with the two films are almost the same. The results of this study provide the necessary theoretical basis for developing alkali reduction technology for porous ecological concrete with environmental and economic benefits. |
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language | English |
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spelling | doaj.art-2ab669fe293a4a2f8bae1f476e2badf72024-01-07T12:22:44ZengNature PortfolioScientific Reports2045-23222024-01-0114111110.1038/s41598-023-50637-9Experimental study on alkali reduction of film-coated porous ecological concrete by microbial calcium carbonate precipitation technologyBingxia Wang0Bo Yang1Lu Wang2Bo Lian3Xiaolei Wu4Western Centre of Disaster Mitigation in Civil Engineering, Ministry of Education, Lanzhou University of TechnologyWestern Centre of Disaster Mitigation in Civil Engineering, Ministry of Education, Lanzhou University of TechnologyWestern Centre of Disaster Mitigation in Civil Engineering, Ministry of Education, Lanzhou University of TechnologyWestern Centre of Disaster Mitigation in Civil Engineering, Ministry of Education, Lanzhou University of TechnologyWestern Centre of Disaster Mitigation in Civil Engineering, Ministry of Education, Lanzhou University of TechnologyAbstract Some plants do not grow due to the high pH levels of ecological concrete pore solutions. In this paper, we design and build an integrated device featuring a combined microbial film and a transverse/U-shaped grouting film. We have applied to the China Intellectual Property Office for an invention patent on this device. The device overcomes the blockage of the grouting port caused by microbial and vertical grouting. The vertical grouting tube leaves holes inside a specimen, reducing the compressive strength, while the integrated device optimizes and decreases variation in the recycling of microbial bacteria. The reduction in the pore alkalinity of porous ecological concrete resulting from the microbial grouting film of this device is larger than that resulting from a microbial sprayed film. The pH values of porous ecological concrete with microbial grouting films and microbial sprayed films are obtained by the pure slurry soaking method and solid–liquid extraction method, respectively. The pH value is lower for the film obtained by the pure slurry soaking method than for that obtained by the solid–liquid extraction method. Conversely, the pH value of porous ecological concrete with a microbial grouting film is reduced to approximately 8 at an age of 56 days. The compressive strengths of the porous ecological concrete specimens with the two films are almost the same. The results of this study provide the necessary theoretical basis for developing alkali reduction technology for porous ecological concrete with environmental and economic benefits.https://doi.org/10.1038/s41598-023-50637-9 |
spellingShingle | Bingxia Wang Bo Yang Lu Wang Bo Lian Xiaolei Wu Experimental study on alkali reduction of film-coated porous ecological concrete by microbial calcium carbonate precipitation technology Scientific Reports |
title | Experimental study on alkali reduction of film-coated porous ecological concrete by microbial calcium carbonate precipitation technology |
title_full | Experimental study on alkali reduction of film-coated porous ecological concrete by microbial calcium carbonate precipitation technology |
title_fullStr | Experimental study on alkali reduction of film-coated porous ecological concrete by microbial calcium carbonate precipitation technology |
title_full_unstemmed | Experimental study on alkali reduction of film-coated porous ecological concrete by microbial calcium carbonate precipitation technology |
title_short | Experimental study on alkali reduction of film-coated porous ecological concrete by microbial calcium carbonate precipitation technology |
title_sort | experimental study on alkali reduction of film coated porous ecological concrete by microbial calcium carbonate precipitation technology |
url | https://doi.org/10.1038/s41598-023-50637-9 |
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