Book cover for Role of Cement Science in Sustainable Development: Proceedings of the International Symposium held at the University of Dundee, Scotland, UK on 3–4 September 2003
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Role of Cement Science in Sustainable Development: Proceedings of the International Symposium held at the University of Dundee, Scotland, UK on 3–4 September 2003
Edited by
Ravindra K. Dhir
Ravindra K. Dhir
Director
Concrete Technology Unit, University of Dundee
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Moray D. Newlands
Moray D. Newlands
CPD/Consultancy Manager
Concrete Technology Unit, University of Dundee
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Laszlo J. Csetenyi
Laszlo J. Csetenyi
Research/Teaching Fellow
Concrete Technology Unit, University of Dundee
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Author and Other Information
Emerald Publishing Limited
DOI:
https://doi.org/10.1680/rocsisd.32460
ISBN print:
978-0-7277-3932-2
Publication date:
2003
Book Chapter

ALAKALI-ACTIVATED CEMENTS AS IMMOBILISATION MATRICES FOR ARSENIC WASTES

By
A Fernandez Jiminez;
A Fernandez Jiminez
1Eduardo Torroja Institute (CSIC), Spain
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A Palomo;
A Palomo
1Eduardo Torroja Institute (CSIC), Spain
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E E Lachowski;
E E Lachowski
2University of Aberdeen, United Kingdom
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D E Macphee
D E Macphee
2University of Aberdeen, United Kingdom
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Author and Other Information
A Fernandez Jiminez
1Eduardo Torroja Institute (CSIC), Spain
A Palomo
1Eduardo Torroja Institute (CSIC), Spain
E E Lachowski
2University of Aberdeen, United Kingdom
D E Macphee
2University of Aberdeen, United Kingdom
Doi:
https://doi.org/10.1680/rocsisd.32460.0035
  • Published:
    2003

A variety of natural and industrial waste product materials rich in SiO2 and Al2O3 may be activated with certain alkaline materials to produce cementitious systems which when cured under mild temperature conditions, set and harden, in the presence of appropriate amounts of water, to give a very compact paste. In some cases, e.g. where fly ash is the activated material, fast setting and rapid strength development have been reported. In addition to their application in construction, their role as host matrices for waste materials is beginning to attract interest and it is this application that the study reported here addresses. Arsenic immobilisation is not achieved satisfactorily in Portland cement matrices because calcium arsenate phases, which form readily, decompose when the matrix carbonates. This paper describes the results of some of the leaching and microstructural studies on alkali-activated fly ash matrices containing arsenic with additional iron and manganese. Arsenic leaching from fly ash matrices is high, and considerably increased by the presence of manganese. The role of iron is more complicated and depends on its speciation.

  • INTRODUCTION

  • EXPERIMENTAL

  • RESULTS AND DISCUSSION

  • CONCLUSIONS

  • ACKNOWLEDGEMENTS

  • REFERENCES

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