Synthesis of water treatment sludge ash-based geopolymers in an Amazonian context

- Santos, Gessica, Melo Filho, Joao, Pinheiro, Mauricio, Manzato, Lizandro

Title
Synthesis of water treatment sludge ash-based geopolymers in an Amazonian context
Creator
Santos, Gessica; Melo Filho, Joao; Pinheiro, Mauricio; Manzato, Lizandro
Date
2019
Type
Text; Journal article
Identifier
http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/171140
Identifier
vital:14303
Identifier
https://doi.org/10.1016/j.jenvman.2019.109328
Identifier
ISBN:0301-4797
Abstract
Water treatment plants (WTP) in the City of Manaus, Brazil, generate tons of sludge daily, which are then disposed of in landfills and main watercourses, particularly two important Amazonian Rivers: the blackwater Negro River and the pale sandy-colored water Solimoes River. Because WTP-based sludges are rich in silicon and aluminum, they have been employed in the synthesis of geopolymers - alkaline activated inorganic polymers consisting of silicate and aluminosilicate chains. This paper reports the results of a geopolymeric synthesis process in which calcined sludge was explored as a source of silica and alumina. In this research, a laboratory testing program was developed to characterize the waste material generated from a water treatment plant in Manaus, whose intake water is influenced by the above referred rivers. Sample preparation involved kiln drying at 110 degrees C for 8 h, grinding in ball mill for 2 h, and calcination at 750 degrees C for 6 h. The calcined sludge was used as precursor, and potassium hydroxide added as activating alkali. Two geopolymers, one from each sludge source, were prepared following identical procedures. The chemical, compositional, morphological, thermal and mechanical properties of the fresh and hardened geopolymers were characterized. The geopolymers reached uniaxial compressive strengths of over 50 MPa at 28 days. Calcination conveyed more refined properties to the sludge-based geopolymers, akin to metakaolin-based geopolymers. The results presented herein support the technical feasibility of geopolymer synthesis in the lab scale.
Publisher
Academic Press Ltd - Elsevier Science Ltd.
Relation
Journal of Environmental Management Vol. 249, no. (Nov 2019), p. 8
Rights
Copyright © 2019 Elsevier Ltd.
Rights
This metadata is freely available under a CCO license
Subject
MD Multidisciplinary; Water treatment sludge; Waste; Geopolymer; Compressive strength; Amazonian rivers; Treatment plant sludge; Rice husk ash; Fly-ash; Microstructure; Metakaolin; Strength; Binders; Behavior
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