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Bacterially-promoted carbonation of lime-based building materials

Franco Grosso Giordano (UGent) , Carlos Rodriguez-Navarro, Nele De Belie (UGent) and Nico Boon (UGent)
(2024) SUBLime Conference 2024 : Towards the next generation of sustainable masonry systems : mortars, renders, plasters and other challenges. In MATEC Web of Conferences 403.
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Abstract
Lime-based binders, while historically significant, exhibit low strength and slow hardening, which has led to its replacement by cement. Hardening in lime-based materials occurs primarily through carbonation, whereby Ca(OH)2 reacts with atmospheric CO2 and produces CaCO3 cement. This study explores using bacterial additives to accelerate lime hardening by producing extra CO2. Three bacterial species were isolated and grown in liquid media. In a closed container, lime-mortar specimens were indirectly exposed to a cotton soaked in either bacterial suspension or water. Thermogravimetric analysis after 7 and 14 days indicated increased carbonation in cubes incubated with bacterial suspension, but not significantly. Subsequently, one bacterial suspension was mixed directly with lime. Progression of carbonation was tested with phenolphthalein and after 7, 14 and 21 days faster carbonation was seen in bacteria-containing pastes than those with only culture media. Overall, bacteria can carbonate lime materials but further optimization is needed for practical application.

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MLA
Grosso Giordano, Franco, et al. “Bacterially-Promoted Carbonation of Lime-Based Building Materials.” SUBLime Conference 2024 : Towards the next Generation of Sustainable Masonry Systems : Mortars, Renders, Plasters and Other Challenges, edited by P.B. Lourenço et al., vol. 403, EDP Sciences, 2024, doi:10.1051/matecconf/202440303003.
APA
Grosso Giordano, F., Rodriguez-Navarro, C., De Belie, N., & Boon, N. (2024). Bacterially-promoted carbonation of lime-based building materials. In P. B. Lourenço, M. Azenha, & J. M. Pereira (Eds.), SUBLime Conference 2024 : Towards the next generation of sustainable masonry systems : mortars, renders, plasters and other challenges (Vol. 403). https://doi.org/10.1051/matecconf/202440303003
Chicago author-date
Grosso Giordano, Franco, Carlos Rodriguez-Navarro, Nele De Belie, and Nico Boon. 2024. “Bacterially-Promoted Carbonation of Lime-Based Building Materials.” In SUBLime Conference 2024 : Towards the next Generation of Sustainable Masonry Systems : Mortars, Renders, Plasters and Other Challenges, edited by P.B. Lourenço, M. Azenha, and J.M. Pereira. Vol. 403. EDP Sciences. https://doi.org/10.1051/matecconf/202440303003.
Chicago author-date (all authors)
Grosso Giordano, Franco, Carlos Rodriguez-Navarro, Nele De Belie, and Nico Boon. 2024. “Bacterially-Promoted Carbonation of Lime-Based Building Materials.” In SUBLime Conference 2024 : Towards the next Generation of Sustainable Masonry Systems : Mortars, Renders, Plasters and Other Challenges, ed by. P.B. Lourenço, M. Azenha, and J.M. Pereira. Vol. 403. EDP Sciences. doi:10.1051/matecconf/202440303003.
Vancouver
1.
Grosso Giordano F, Rodriguez-Navarro C, De Belie N, Boon N. Bacterially-promoted carbonation of lime-based building materials. In: Lourenço PB, Azenha M, Pereira JM, editors. SUBLime Conference 2024 : Towards the next generation of sustainable masonry systems : mortars, renders, plasters and other challenges. EDP Sciences; 2024.
IEEE
[1]
F. Grosso Giordano, C. Rodriguez-Navarro, N. De Belie, and N. Boon, “Bacterially-promoted carbonation of lime-based building materials,” in SUBLime Conference 2024 : Towards the next generation of sustainable masonry systems : mortars, renders, plasters and other challenges, Funchal, Madeira, Portugal, 2024, vol. 403.
@inproceedings{01JDYZFXSSEVGHN1W148DVJY6A,
  abstract     = {{Lime-based binders, while historically significant, exhibit low strength and slow hardening, which has led to its replacement by cement. Hardening in lime-based materials occurs primarily through carbonation, whereby Ca(OH)2 reacts with atmospheric CO2 and produces CaCO3 cement. This study explores using bacterial additives to accelerate lime hardening by producing extra CO2. Three bacterial species were isolated and grown in liquid media. In a closed container, lime-mortar specimens were indirectly exposed to a cotton soaked in either bacterial suspension or water. Thermogravimetric analysis after 7 and 14 days indicated increased carbonation in cubes incubated with bacterial suspension, but not significantly. Subsequently, one bacterial suspension was mixed directly with lime. Progression of carbonation was tested with phenolphthalein and after 7, 14 and 21 days faster carbonation was seen in bacteria-containing pastes than those with only culture media. Overall, bacteria can carbonate lime materials but further optimization is needed for practical application.}},
  articleno    = {{03003}},
  author       = {{Grosso Giordano, Franco and Rodriguez-Navarro, Carlos and De Belie, Nele and Boon, Nico}},
  booktitle    = {{SUBLime Conference 2024 : Towards the next generation of sustainable masonry systems : mortars, renders, plasters and other challenges}},
  editor       = {{Lourenço, P.B. and Azenha, M. and Pereira, J.M.}},
  issn         = {{2274-7214}},
  language     = {{eng}},
  location     = {{Funchal, Madeira, Portugal}},
  pages        = {{7}},
  publisher    = {{EDP Sciences}},
  title        = {{Bacterially-promoted carbonation of lime-based building materials}},
  url          = {{http://doi.org/10.1051/matecconf/202440303003}},
  volume       = {{403}},
  year         = {{2024}},
}
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