Sage Journals: Discover world-class research

Abstract

Two binding matrices based on blast furnace slag or fly ash/lime mixtures were studied in relation to the stabilization/solidification of a residue from a municipal solid waste incinerator. Their use is of interest because of the formation of calcium trisulphoaluminate and silicate hydrates.

Mixtures of the above matrices with up to 80% of the incinerator residue were paste-hydrated and cured for 28 days at 25°C and 100% relative humidity. The effect of added waste on the hydration phenomena was studied by means of differential thermal analysis and X-ray diffraction analysis. The effectiveness of these systems as stabilization/solidification matrices was checked by means of mechanical and leaching tests. Cured samples with up to 20-40% of added waste gave compressive strengths sufficiently high for reuse as building materials.

The U.S. Environmental Protection Agency leaching test has shown that disposal in a landfill in which no facilities for collecting and treating percolating waters are provided, is possible with 40-60% of waste content.

Keywords

Stabilization/solidification toxic and hazardous waste municipal solid waste incineration coal fly ash blast furnace slag chemical gypsum ettringite compressive strength leaching.

Get full access to this article

View all access options for this article.

References

American Nuclear Society (1981) Measurement of the Leachability of Solidified Low-level Radioactive Wastes . U.S.A.

American Nuclear Society (1986) Measurement of the Leachability of Solidified Low-level Radioactive Wastes by a Short-term Procedure. Working Group ANS 16.1. U.S.A.

Beretka, J. , Santoro, L. & Valenti, G.L. (1987) New and durable building materials based on ettringite . Proceedings of the Fourth International Conference on Durability of Building Materials and Components, Singapore , 1, 64-70.

Beretka, J. , Cioffi, R. , Santoro, L. & Valenti, G.L. (1990) The role of phosphogypsum during the formation of ettringite-based binders. Proceedings of the Third International Symposium on Phosphogypsum, Orlando , U.S.A., 417-425.

Beretka, J. , Cioffi, R. , Santoro, L. & Valenti, G.L. (1991) Utilisation of fly ash and phosphogypsum for making building materials. Proceedings of the Third NCB International Seminar on Cement and Building Materials, New Delhi, India, 3, VII.110-VII.115.

Bina, S. , Collivignarelli, C. & Urbini, G. (1992) Stabilization/solidification of hazardous wastes before landfill disposal: Italian and European experiences. I Simposio Italo-Brasiliano d'Ingegneria Sanitaria-Ambientale , Rio de Janeiro, Brazil, IV-6, 404-420.

Cioffi, R. , Marroccoli, M. , Santoro, L. & Valenti, G.L. (1992) DTA Study of the hydration of systems of interest in the field of building materials manufacture. Journal of Thermal Analysis 38, 761-770.

Conner, J.R. (1990) Chemical Fixation and Solidification of Hazardous Wastes. New York, U.S.A.: Van Nostrand Reinhold Company, pp. 335-447.

Coté, P.L. & Hamilton, D.P. (1984) Evaluation of pollutant release from solidified aqueous waste using a dynamic leaching test. Proceedings of the Hazardous Wastes and Environmental Emergencies Conference, 302-308.

10.

King, G.A. & Ridge, M.S. (1978) Effects of some orthophosphates on the hydration of calcium sulphate hemihydrate. Australian Journal of Chemistry 31, 2295-2301.

11.

Santoro, L. , Valenti, G.L. & Volpicelli, G. (1984) Application of differential scanning calorimetry to the study of the system phosphogypsum-lime-aluminium hydroxide-water. Thermochimica Acta 74, 35-44.

12.

Santoro, L. , Aletta, I. & Valenti, G.L. (1986) Hydration of mixtures containing fly-ash, lime and phosphogypsum. Thermochimica Acta 98, 71-80.

13.

Stegemann, J.A. & Coté, P.L. (1992) A proposed protocol for evaluation of solidified wastes. Proceedings of the International Symposium on Cement Industry Solutions to Waste Management, Calgary , 1, 1-12.

14.

U.S. Environmental Protection Agency (1986 ) Test Methods for Evaluating Solid Waste. SW-846. Office of Solid Waste and Emergency Response, Washington, DC, U.S.A.

15.

Valenti, G.L. , Santoro, L. & Volpicelli, G. (1984) Hydration of granulated blast-furnace slag in the presence of phosphogypsum. Thermochimica Acta 78, 101-112.

16.

Valenti, G.L. , Cioffi, R. , Santoro, L. & Ranchetti, S. (1988a) Influence of chemical and physical properties of Italian fly ashes on reactivity towards lime, phosphogypsum and water. Cement and Concrete Research 18, 91-102.

17.

Valenti, G.L. , Santoro, L. & Beretka, J. (1988b) Studies on the formation of cementitious compounds using phosphogypsum. Proceedings of the Second International Symposium on Phosphogypsum, Miami, U.S.A., 2, 167-172.

18.

Valenti, G.L. , Cioffi, R. , Santoro, L. & Beretka, J. (1988c) Hydraulic binders and building elements formed of non-traditional materials. International Patent Classification: CO4B 11/26, 11/30, 28/14; Application Number: PCT/AU87/00419; Publication Number: WO 88/04285.

19.

Wastewater Technology Centre-Environment Canada ( 1991) Proposed Evaluation Protocol for Cement-based Solidified Wastes, Report EPS 3/HA/9.

Stabilization of Residue Containing Heavy Metals By Means of Matrices Generating Calcium Trisulphoaluminate and Silicate Hydrates

Abstract

Keywords

Get full access to this article

References