The potential use of drinking water sludge ash as supplementary cementitious material in the manufacture of concrete blocks

•Pozzolanic reactivity of drinking water sludge ash prevails after 7 days for curing.•The filler effect of sludge ash dominates the reaction kinetic at an early age.•Unreacted sludge ash may deteriorate the mechanical performance of cement composites.•Sludge ash alters hydration products’ phases.•Co...

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Bibliographic Details
Published in:Resources, conservation and recycling Vol. 168; p. 105291
Main Authors: Liu, Yue, Zhuge, Yan, Chow, Christopher W.K., Keegan, Alexandra, Pham, Phuong Ngoc, Li, Danda, Oh, Jeong-A, Siddique, Rafat
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2021
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Summary:•Pozzolanic reactivity of drinking water sludge ash prevails after 7 days for curing.•The filler effect of sludge ash dominates the reaction kinetic at an early age.•Unreacted sludge ash may deteriorate the mechanical performance of cement composites.•Sludge ash alters hydration products’ phases.•Concrete blocks incorporating 10% sludge ash exhibit competitive compressive strength. The effect of drinking water sludge ash (DWSA) on the properties of DWSA-cement pastes is investigated in this study using x-ray diffraction, scanning electron microscopy coupled with energy-dispersive spectrometry, and thermogravimetry techniques. The pozzolanic reactivity of DWSA is confirmed; the filler effect of DWSA can significantly and rapidly accelerate the hydration reaction at an early curing age. The presence of DWSA in blended pastes promotes the incorporation of aluminum into the C-(A)-S-H gel; the original ‘Al-minor’ C-(A)-S-H gel in pure cement paste is converted to ‘Al-rich’ C-(A)-S-H gel. The added DWSA leads to the formation of aluminum-bearing hydrates, such as ettringite and calcium aluminate hydrates (C-A-H). The compressive strength of sludge-derived concrete blocks is studied; blocks containing 10% DWSA exhibited higher compressive strength at a curing age of 90 d than the reference samples. Such benefits are not observed in block samples with 20 and 30% DWSA, which is attributed mainly to the physical effect of unreacted DWSA particles.
ISSN:0921-3449
1879-0658
DOI:10.1016/j.resconrec.2020.105291