Geopolymerisation of fly ashes with waste aluminium anodising etching solutions

Combined management of coal combustion fly ash and waste aluminium anodising etching solutions using geopolymerisation presents economic and environmental benefits. The possibility of using waste aluminium anodising etching solution (AES) as activator to produce fly ash geopolymers in place of the c...

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Bibliographic Details
Published in:Journal of environmental management 2016-10, Vol.181, p.118-123
Main Authors: Ogundiran, M.B., Nugteren, H.W., Witkamp, G.J.
Format: Article
Language:English
Subjects:
Aluminum - chemistry
Coal
Coal Ash - chemistry
Compressive Strength
Elemental leaching
Environmental management
Etching
Fly ash
Geopolymer
Leaching
Polymerization
Polymers - chemistry
Potassium
Recycling
Waste aluminium etching solution
Waste Management - methods
Waste Products
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Summary:Combined management of coal combustion fly ash and waste aluminium anodising etching solutions using geopolymerisation presents economic and environmental benefits. The possibility of using waste aluminium anodising etching solution (AES) as activator to produce fly ash geopolymers in place of the commonly used silicate solutions was explored in this study. Geopolymerisation capacities of five European fly ashes with AES and the leaching of elements from their corresponding geopolymers were studied. Conventional commercial potassium silicate activator-based geopolymers were used as a reference. The geopolymers produced were subjected to physical, mechanical and leaching tests. The leaching of elements was tested on 28 days cured and crushed geopolymers using NEN 12457-4, NEN 7375, SPLP and TCLP leaching tests. After 28 days ambient curing, the geopolymers based on the etching solution activator showed compressive strength values between 51 and 84 MPa, whereas the commercial potassium silicate based geopolymers gave compressive strength values between 89 and 115 MPa. Based on the regulatory limits currently associated with the used leaching tests, all except one of the produced geopolymers (with above threshold leaching of As and Se) passed the recommended limits. The AES-geopolymer geopolymers demonstrated excellent compressive strength, although less than geopolymers made from commercial activator. Additionally, they demonstrated low element leaching potentials and therefore can be suitable for use in construction works. •Geopolymers were made from fly ashes and waste Al etching solution as activator.•Compressive strength measured at 28 days R.T. curing varied from 51.3 to 84.3 MPa.•The geopolymers have low elemental leaching and can be suitable in construction.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2016.06.017