Guha, R., Bambier, P. and Ouellet-Plamondon, C. M..
2024.
« Environmental assessment of materials in preparing alkali-activated materials using bauxite residue ».
In World Sustainable Built Environment (WSBE24) (Virtual, June 12-14, 2024)
Coll. « IOP Conference Series: Earth and Environmental Science », vol. 1363.
IOP Publishing.
Compte des citations dans Scopus : 1.
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Abstract
Aluminum is a highly produced metal globally. In the built environments alone, aluminum is known for its light weight and anti-corrosive properties and is a common choice of material in window frames, curtain walls, and light fixtures. The metal is processed from its oxide, alumina, the production of which releases a caustic byproduct known as bauxite residue (BR). BR is stored in massive reservoirs, however, due to the sheer volume of production, industries handling the material are reaching their storage limits. It is of high importance to research methods to valorize BR. Researchers have proposed a multitude of valorization methods, which include metal recovery from the byproduct, and using BR as raw material in production of another material. However, it is counterproductive to expend considerable amounts of energy and use excessive raw materials to manage utilization of BR. This study compared a method of valorization of bauxite residue with clay bricks. The method of preparing alkali-activated materials (AAM) with bauxite residue as a precursor was semi-quantitatively analyzed to compare the raw materials in the AAM with clay bricks. The materials were analyzed for climate change, ozone depletion, human toxicity, and aquatic ecotoxicity using OpenLCA software and the ecoinvent version 3.4 database. While the alkali activators possessed high values of the environmental impact when measured by the kilogram, the impacts were greatly reduced due to their small percentage in weight contained in the AAM. This study is the first stage of analyzing the environmental costs of valorizing bauxite residue. The AAM showed low environmental impact in material use when impacts of toxicity are considered. However, it displayed a higher climate change impact than that of clay bricks. Transport of raw materials to the preparation site played a significant role in the analysis. The next step is to compare the energy used in preparing AAMs.
Item Type: | Conference proceeding |
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ISBN: | 1755-1315; 1755-1307 |
Professor: | Professor Ouellet-Plamondon, Claudiane |
Affiliation: | Génie de la construction |
Date Deposited: | 30 Jul 2024 19:23 |
Last Modified: | 31 Jul 2024 19:34 |
URI: | https://espace2.etsmtl.ca/id/eprint/29043 |
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