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Agglomeration of High Calcium Fly Ash for Utilization I. Physical Properties

Published online by Cambridge University Press:  21 February 2011

Kenneth L. Bergeson
Affiliation:
Department of Civil & Construction Engineering, Iowa State University, Ames, Iowa 50011 (refereed)
Carol L Kilgour
Affiliation:
Department of Civil & Construction Engineering, Iowa State University, Ames, Iowa 50011 (refereed)
Douglas Overmohle
Affiliation:
Department of Civil & Construction Engineering, Iowa State University, Ames, Iowa 50011 (refereed)
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Abstract

Inability of the Iowa fly ash industry to meet their demands for fly ash during the peak construction months led the Iowa Fly Ash Affiliates to initiate research into storage alternatives for high-calcium fly ashes. Conventional, closed storage facilities are extremely expensive and currently not cost effective. In addition, the industry is faced with the rising costs of landfill disposal. This paper presents the results of utilizing the rapid self-cementitious properties of high-calcium ashes to agglomerate them into discrete, aggregate size particles for stockpiling. The two fly ashes used in this study contained 25 to 30 percent calcium. Water was used as an agglomerating medium. Agglomeration was accomplished using three types of commercial equipment as follows: continuous rotary pan agglomerator, continuous auger agglomerator and a batch turbine agglomerator. All units produced relatively well graded aggregate material differing primarily in particle shape and texture. Research work discussed includes gradation, strength, and durability of the agglomerates. Agglomerates were also reground using a newlydeveloped, energy efficient, micronizing technique. Research results using the reground ash in concrete and soil stabilization are presented.

Type
Research Article
Copyright
Copyright © Materials Research Society 1990

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References

1. Kilgour, C. L., Bergeson, K. L. and Schlorholtz, S., in Fly Ash and Coal Conversion By Products: Characterization Utilization and Disposal VI, edited by Hemmings, R.T., Berry, E.E., McCarthy, G.J. and Glasser, F.P., (Materials Research Society Symposium Proceedings Vol.136, Pittsburgh, PA, 1989), pp. 161168 Google Scholar
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