Efficient utilization of municipal solid waste incinerator bottom ash for autoclaved aerated concrete formulation
Y Liu, D Kumar, KH Lim, YL Lai, Z Hu… - Journal of Building …, 2023 - Elsevier
Contrary to the previous research on the general utilization of municipal solid waste (MSW)
incineration bottom ash (IBA) in autoclaved aerated concrete (AAC), the given study …
incineration bottom ash (IBA) in autoclaved aerated concrete (AAC), the given study …
A comprehensive assessment of green concrete incorporated with municipal solid waste incineration bottom: Experiments and life cycle assessment (LCA)
L Cheng, H Jin, J Liu, F Xing - Construction and Building Materials, 2024 - Elsevier
To reduce the high carbon emissions in the concrete field and facilitate the sustainable
development of concrete, in this study, we repurposed high-volume municipal solid waste …
development of concrete, in this study, we repurposed high-volume municipal solid waste …
Utilization of municipal solid waste incinerator bottom ash (MSWIBA) in concrete as partial replacement of fine aggregate
J Lu, X Yang, Y Lai, X Wan, J Gao, Y Wang… - … and Building Materials, 2024 - Elsevier
Enhancing sustainable economic development while maintaining environmental integrity is
of paramount importance. In this context, the effective utilization of municipal solid waste …
of paramount importance. In this context, the effective utilization of municipal solid waste …
Simplified kinetics model for hydrogen gas generation from metallic aluminum in municipal solid waste incineration bottom ash
The reaction of metallic aluminum in the incineration bottom ash (IBA) with an alkaline
medium generates hydrogen (H 2) gas. The generated H 2 has caused severe cracking …
medium generates hydrogen (H 2) gas. The generated H 2 has caused severe cracking …
Qualitative and quantitative characterization of metallic aluminum in municipal solid waste incineration bottom ash
The reaction of alkaline solution and metallic aluminum present in municipal solid waste
(MSW) incineration bottom ash (IBA) generates hydrogen gas. Thus, it is crucial to …
(MSW) incineration bottom ash (IBA) generates hydrogen gas. Thus, it is crucial to …
Impact of Ca, Al, and Mg on reaction kinetics, pore structure, and performance of Fe‐rich alkali‐activated slag
N Wen, A Peys, T Hertel… - Journal of the American …, 2024 - Wiley Online Library
Alkali‐activated materials can be formed by alkali‐activation of Fe‐rich non‐ferrous
metallurgical slags (AA‐NFMS). To study NFMS in AA‐NFMS systematically, five NFMS …
metallurgical slags (AA‐NFMS). To study NFMS in AA‐NFMS systematically, five NFMS …
Simplified framework for efficient utilization of municipal solid waste incinerator bottom ash as construction material via systematic classification and characterization
The incinerator bottom ash (IBA) constitutes approximately 80% of the municipal solid waste
(MSW) incineration residues. To minimize the end-waste, one of the sustainable solutions is …
(MSW) incineration residues. To minimize the end-waste, one of the sustainable solutions is …
The Influence of Secondary Raw Materials on Properties of Aerated Autoclaved Concrete
V Černý, L Mészárosová, J Melichar… - … Modern Building Materials …, 2023 - Springer
Aerated autoclaved concrete (AAC) is a building material consisting of lime, cement,
siliceous components, and aerating agents. The samples are cured by hydrothermal …
siliceous components, and aerating agents. The samples are cured by hydrothermal …
Faculty of Civil Engineering, Brno University of Technology, Veveří 331/95, 60200 Brno, Czech Republic meszarosova. l@ fce. vutbr. cz
V Černý, L Mészárosová, J Melichar… - Modern Building …, 2023 - books.google.com
Aerated autoclaved concrete (AAC) is a building material consisting of lime, cement,
siliceous components, and aerating agents. The samples are cured by hydrothermal …
siliceous components, and aerating agents. The samples are cured by hydrothermal …