Exploring sustainable construction: A case study on the potential of municipal solid waste incineration ashes as building materials in San Andres island

Exploring sustainable construction: A case study on the potential of municipal solid waste incineration ashes as building materials in San Andres island

By 2024, San Andrés Island’s only sanitary landfill had reached full capacity, holding over 500,000 tons of waste. With limited storage options and an annual generation of 250,000 tons of municipal solid waste, incineration became a key waste management strategy. However, this process produces fly a...

Full description

Saved in:
Bibliographic Details
Main Authors: Julián David Carmona-Ramírez, Carlos Andrés Bedoya-Henao, Francisco Darío Cabrera-Poloche, Isabella Taborda-Llano, Gustavo Adolfo Viana-Casas, Óscar Jaime Restrepo-Baena, Jorge Iván Tobón
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Case Studies in Construction Materials
Subjects:
Municipal solid waste
Sustainability
Environment
Incineration of wastes
Building Materials
Pavement
Online Access:http://www.sciencedirect.com/science/article/pii/S2214509525001494
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:By 2024, San Andrés Island’s only sanitary landfill had reached full capacity, holding over 500,000 tons of waste. With limited storage options and an annual generation of 250,000 tons of municipal solid waste, incineration became a key waste management strategy. However, this process produces fly and bottom ash, which, despite reducing waste volume, still poses environmental risks and storage challenges due to its unique composition. This study explored alternatives for the beneficial reuse of bottom ash, including: 1) use as a supplementary cementitious material, 2) as an aggregate (sand) in conventional mortars, 3) as a constituent material for pavement (granular sub-base), and 4) in the production of prefabricated items such as pavers and urban furniture. The results indicated that the bottom ash does not exhibit pozzolanic activity per ASTM standards at 7 and 28 days. However, mortars and prefabricated concrete items incorporating bottom ash as aggregates showed compressive and flexural strength values greater than those set by the standards. Additionally, the ash met the performance specifications required for use in road construction materials, demonstrating its potential for use in different construction applications. These findings could potentially offer solutions to reduce the stockpiling of incineration by-products in San Andrés Island, minimize environmental risks associated with their storage, and contribute to a circular green economy by transforming waste into valuable resources for sustainable development.
ISSN:2214-5095

Similar Items