Municipal solid waste incineration bottom ash recycling assessment: Carbon emission analysis of bottom ash applied to pavement materials

• Published in: Construction & building materials Vol. 421; p. 135774
• Main Authors: Wang, Jiaojiao, Ding, Yongjie, Zhou, Yongxiang, Wei, Wei, Wang, Yanghui
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 29.03.2024
• Subjects: Asphalt mixtures; Bottom ash; Calculation; Carbon emissions; Energy consumption; Pavement materials; Bottom ash; Energy consumption; Calculation; Pavement materials; Carbon emissions; Asphalt mixtures
• ISSN: 0950-0618; 1879-0526
• DOI: 10.1016/j.conbuildmat.2024.135774

Inspired by the concept of conserving resources, bottom ash has been increasingly utilized in road construction as a readily available waste material. This study sought to address this gap by quantifying the carbon benefits associated with bottom ash application. Through a comprehensive analysis grounded in life cycle theory, author evaluated the changes in energy consumption and carbon emissions before and after the integration of bottom ash into the road construction process. The analysis employed the raw material production stages of different pavement materials as the system boundary. By determining the optimal amount of bottom ash and calculating the associated values, the study proposed an efficient application scheme for utilizing bottom ash in urban engineering construction projects. The results showed that bottom ash had the least carbon reduction effect in permeable bricks, followed by cement concrete and cement stabilized macadam mixture. The most significant effect was observed in asphalt mixtures. However, energy consumption increased with the addition of bottom ash in asphalt mixtures, whereas it decreased in the other three products. The carbon reduction after applying bottom ash was predicted based on the annual growth rate of urban road construction. Under the premise of maintaining the non-destructive application performance of asphalt mixtures, the optimal carbon reduction benefit for a 20% addition of bottom ash was approximately 17,369.9 tons. In cement-stabilized crushed stone mixtures, the optimal carbon reduction benefit ws achieved with a bottom ash content of 30%, approximately 15,797.7 tons. The practice of utilizing bottom ash in road works was significant in terms of maximising the benefits of carbon reduction. •The carbon benefits of bottom ash dosing in engineering were studied.•Based on life cycle theory and carbon emission factor approach.•The carbon reduction of using bottom ash in actual road was calculated.•Bottom ash application had a striking carbon reduction effect compared to landfill.