Optimising the mechanical properties of concrete for non-structural applications through partial replacement of fine aggregates with wastewater sludge.
Mojapelo, Kobe Samuel Kupolati, Williams Kehinde Burger, Everardt Andre Ndambuki, Julius Musyoka Snyman, Jacques Sadiku, Emmanuel Rotimi Ibrahim, Idowu David
Mojapelo, Kobe Samuel
Kupolati, Williams Kehinde
Burger, Everardt Andre
Ndambuki, Julius Musyoka
Snyman, Jacques
Sadiku, Emmanuel Rotimi
Ibrahim, Idowu David
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Abstract
This study investigated the potential of wastewater sludge (WWS) as a partial replacement for fine aggregates in non-structural concrete to optimise its mechanical properties while mitigating environmental impacts. WWS from three wastewater treatment plants (WWTPs), Mankweng, Polokwane, and Seshego, in Limpopo Province, South Africa, was used to replace sand at 0, 5, 10, 15, and 20% by weight. Scanning electron microscopy (SEM), X-ray diffraction analysis (XRD), and energy dispersive X-ray analysis (EDX) were used to characterise the organic compositions of the sludge and sludge-based concrete. The environmental safety of the sludge-based concrete was then assessed through the Toxicity Characteristic Leaching Procedure (TCLP) at 28, 90, and 140 days, ensuring compliance with heavy metal leaching limits. The results demonstrate that at a 5% replacement level, the concrete maintained an average compressive strength of 25 MPa after 90 days, meeting general construction standards for non-structural and low load-bearing applications. The incorporation of wastewater sludge had low leachable heavy metals, with TCLP results confirming all tested metals remained below regulatory limits throughout. However, increasing WWS content beyond 10% resulted in higher porosity, reduced compressive strength, and increased water absorption, which compromise durability. The findings highlight the importance of optimising replacement levels and mix design to balance sustainability, mechanical performance, and regulatory compliance.
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Date
2025-01-01
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Nature Research
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Keywords
Wastewater sludge, Heavy metal leaching, Mechanical properties, Environmental impact, Sustainable construction