Organic and Inorganic Modifications to Increase the Efficiency in Immobilization of Heavy Metal (Zn) in Cementitious Composites—The Impact of Cement Matrix Pore Network Characteristics

Organic and Inorganic Modifications to Increase the Efficiency in Immobilization of Heavy Metal (Zn) in Cementitious Composites—The Impact of Cement Matrix Pore Network Characteristics

This research investigated the properties of modified cementitious composites including water purification from heavy metal—zinc. A new method for characterizing the immobilization properties of tested modifiers was established. Several additions had their properties investigated: biochar (BC), acti...

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Bibliographic Details
Published in:Materials Vol. 17; no. 21; p. 5281
Main Authors: Kalinowski, Maciej, Chilmon, Karol, Bogacki, Jan, Woyciechowski, Piotr
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-11-2024
Subjects:
Activated carbon
Adsorption
Aquatic ecosystems
Cement
Composite materials
Concrete
Contamination
Copper
Crushing
Efficiency
Environmental economics
Fly ash
Hazelnuts
Heavy metals
Immobilization
Iron
Mechanical properties
Parameter identification
Parameter modification
Pollutants
Purification
Radiation
Rain
Rheological properties
Runoff
Scrap metals
Shells
Silica
Silicon dioxide
Sintering (powder metallurgy)
Slag
Steel production
Water
Water purification
Zinc
Poland
Canada
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Summary:This research investigated the properties of modified cementitious composites including water purification from heavy metal—zinc. A new method for characterizing the immobilization properties of tested modifiers was established. Several additions had their properties investigated: biochar (BC), active carbon (AC), nanoparticulate silica (NS), copper slag (CS), iron slag (EAFIS), crushed hazelnut shells (CHS), and lightweight sintered fly ash aggregate (LSFAA). The impact of modifiers on the mechanical and rheological properties of cementitious composites was also studied. It was found that considered additions had a significantly different influence over the investigated properties. The addition of crushed hazelnut shells, although determined as an effective immobilization modifier, significantly deteriorated the mechanical performance of the composite as well as its rheological properties. Modification by iron slag allowed for a significant increase in immobilization properties (five-fold compared to the reference series) without a substantial impact on other properties. The negative effect on immobilization efficiency was observed for nanoparticulate silica modification due to its sealing effect on the pore network of the cement matrix. The capillary pore content in the cement matrix was identified as a parameter significantly influencing the immobilization potential of most considered modifications, except biochar and active carbon.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma17215281