Sustainable High Quality Recycling of Aggregates from Waste-to-Energy, Treated in a Wet Bottom Ash Processing Installation, for Use in Concrete Products

• Published in: Materials Vol. 9; no. 1; p. 9
• Main Authors: Van den Heede, Philip, Ringoot, Niels, Beirnaert, Arno, Van Brecht, Andres, Van den Brande, Erwin, De Schutter, Geert, De Belie, Nele
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 01.01.2016; MDPI
• Subjects: aggregate replacement; Aggregates; Aluminum; Ashes; bottom ash; Combustion; Compressive strength; concrete; Concrete industry; Concretes; Metals; Municipal solid waste; municipal solid waste incineration; Natural resources; prefabricated Lego brick; Recycling; Sustainability; Workability; Belgium; Italy; Spain; concrete; aggregate replacement; municipal solid waste incineration; prefabricated Lego brick; bottom ash
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma9010009

Nowadays, more efforts towards sustainability are required from the concrete industry. Replacing traditional aggregates by recycled bottom ash (BA) from municipal solid waste incineration can contribute to this goal. Until now, only partial replacement has been considered to keep the concrete workability, strength and durability under control. In this research, the feasibility of a full aggregate replacement was investigated for producing prefabricated Lego bricks. It was found that the required compressive strength class for this purpose (C20/25) could be achieved. Nevertheless, a thorough understanding of the BA properties is needed to overcome other issues. As BA is highly absorptive, the concrete's water demand is high. This workability issue can be dealt with by subjecting the fine BA fraction to a crushing operation to eliminate the porous elements and by pre-wetting the fine and coarse BA fractions in a controlled manner. In addition, a reactive NaOH washing is needed to avoid formation of longitudinal voids and the resulting expansion due to the metallic aluminum present in the BA. Regarding the long-term behavior, heavy metal leaching and freeze-thaw exposure are not problematic, though there is susceptibility to acetic and lactic acid attack and maybe increased sensitivity to alkali-silica reaction.