Author
Listed:
- Carlos Javier Cobo-Ceacero
(Department of Chemical, Environmental and Materials, Higher Polytechnic School of Linares, University of Jaén, 23071 Jaén, Spain)
- María Teresa Cotes-Palomino
(Department of Chemical, Environmental and Materials, Higher Polytechnic School of Linares, University of Jaén, 23071 Jaén, Spain)
- Lázaro Márquez-Montes
(Department of Chemical, Environmental and Materials, Higher Polytechnic School of Linares, University of Jaén, 23071 Jaén, Spain)
- Carmen Martínez-García
(Department of Chemical, Environmental and Materials, Higher Polytechnic School of Linares, University of Jaén, 23071 Jaén, Spain)
- Francisco José Troyano-Pérez
(Department of Chemical, Environmental and Materials, Higher Polytechnic School of Linares, University of Jaén, 23071 Jaén, Spain)
- Ana B. López
(Department of Chemical, Environmental and Materials, Higher Polytechnic School of Linares, University of Jaén, 23071 Jaén, Spain)
Abstract
The valorization of industrial mining and organic wastes in construction materials constitutes a key strategy for reducing the environmental impact of the sector. In this context, the present study aims to evaluate the sustainability of innovative Artificial Lightweight Aggregates (ALAs) manufactured from mixtures of inorganic industrial wastes—such as granite and slate cutting sludge and aggregate washing sludge—together with organic wastes, like cork dust, coffee grounds, and olive pits. The methodology included a Life Cycle Assessment (LCA), considering different waste compositions and manufacturing conditions. The results show that the developed ALAs exhibit favorable environmental performance as their bulk density decreases, with an overall environmental impact lower than that of conventional lightweight aggregates made from expanded clay, achieving a reduction in the carbon footprint of up to 7%. Likewise, the comparative analysis reveals that the process stage with the greatest environmental impact is the heat energy required during the sintering stage in the rotary kiln, which in some cases accounts for more than 90% of the total impact. In summary, the results demonstrate the feasibility of obtaining ALAs manufactured solely from waste with a lower carbon footprint compared to traditional expanded clay aggregates. Furthermore, the study highlights that the process stages with the highest contributions to environmental impact are the transport of raw materials and the high-temperature sintering of the ALAs in the rotary kiln. Thus, their production from waste contributes to the valorization of by-products, fostering circular economy strategies and supporting decarbonization processes within the construction sector.
Suggested Citation
Carlos Javier Cobo-Ceacero & María Teresa Cotes-Palomino & Lázaro Márquez-Montes & Carmen Martínez-García & Francisco José Troyano-Pérez & Ana B. López, 2026.
"Contribution to Environmental Sustainability Through Artificial Lightweight Aggregates Manufactured from Waste,"
Clean Technol., MDPI, vol. 8(3), pages 1-24, June.
Handle:
RePEc:gam:jcltec:v:8:y:2026:i:3:p:95-:d:1973165
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