Lightweight aggregates produced by granulation of peat-wood fly ash with alkali activator

This study presents a new method to produce lightweight aggregates (LWAs) by granulating peat-wood ash using alkali activators. Peat-wood ash was granulated with potassium silicate and sodium aluminate in a high-shear granulator to produce spherical granules. Blast furnace slag, coal fly ash and met...

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Bibliographic Details
Published in:International journal of mineral processing 2016-04, Vol.149, p.42-49
Main Authors: Yliniemi, Juho, Nugteren, Henk, Illikainen, Mirja, Tiainen, Minna, Weststrate, Rick, Niinimäki, Jouko
Format: Article
Language:English
Subjects:
Agglomeration
Alkali activation
Ashes
Fly ash
Geopolymer
Granular materials
Granulation
Granules
Lightweight
Lightweight aggregate
Liquids
Weight reduction
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Summary:This study presents a new method to produce lightweight aggregates (LWAs) by granulating peat-wood ash using alkali activators. Peat-wood ash was granulated with potassium silicate and sodium aluminate in a high-shear granulator to produce spherical granules. Blast furnace slag, coal fly ash and metakaolin were studied as co-binders. A suitable liquid/solid ratio, granulation growth type, microstructure, strength, and crystal structure of granules have been determined. The granulation proceeded by induction-type growth behaviour and suitable liquid/solid ratio was between 0.34 and 0.43. In the BSE images it was observed that the precursor particles were embedded in a dense alumino-silicate matrix. The X-ray diffraction analysis supported the success of the alkali activation. All co-binders increased the strength of the granules, but the blast furnace slag produced the strongest granules. The study shows that by simultaneous granulation and alkali activation it is possible to increase the utilisation of ash and produce valuable products. [Display omitted] •A new method to produce lightweight aggregates from fly ash in room temperature is presented.•Strong, spherical granules are obtained by granulating fly ash with alkali activator.•The granulation proceeds with induction type growth.•Precursor particles are embedded into a dense alumino-silicate matrix.
ISSN:0301-7516
1879-3525
DOI:10.1016/j.minpro.2016.02.006