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BUFFERING CAPACITY OF SULFIDE MINE TAILING AMENDED WITH ALKALINE MATERIALS

. Alexey Kastyuchik / Antoine Karam / Mohammed Aider / Alfred Jaouich

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b42/s18.005View metrics

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Publication details

Title
BUFFERING CAPACITY OF SULFIDE MINE TAILING AMENDED WITH ALKALINE MATERIALS
Authors
. Alexey Kastyuchik / Antoine Karam / Mohammed Aider / Alfred Jaouich
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on ENERGY AND CLEAN TECHNOLOGIES
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-16-2
Language
en
Publication type
Conference Paper
References6
  1. 1 Donahue R.L., Miller R.W. & Shickluna J.C. Soils: an introduction to soils and plant gro wth. 6th edition. Prentice-Hall, 1977. 2 Stumm W. & Morgan J.J. Aquatic Chemistry. Wiley, New York, 1996. 3 Calvet R. Le sol. 2nd edition. Editions France Agricole. Paris, 2013. 4 Barrow N.J. The accumulation of soil organic matter under pasture and its effect on soil properties. Australian Journal of Agriculture and Anim al Husbandry, vol. 9 , pp 437–444, 1969. 5 Kim G. Influence of physicochemical properties of soil on pH of pore water. Environmental Engineering, vol. 4, pp 233–237, 2000. 6 De Coninck, A.S., Karam, A. & Parent, L.- É. 2008. pH buffering capacity of copper-mine tailing amended with a peat-moss and shrimp wastes compost. Program and Abstract Book, p .

  2. 36. The Annual Meeting of the ASA, CSSA, and SSSA Northeastern Branch with Canadian Society of Agronomy, and Canadian Society of Horticultural Science. July 13-16, 2008. McGill University, Montréal, Québec, Canada. 7 Ritcey, G.M. Tailings management. Problems and solutions in the mining industry. Process metallurgy

  3. 6. Elsevier Science Publishers B.V. The Netherlands, 1989. 8 Karam A. & Guay R. Inondation artificielle du parc à résidus miniers Solbec-Cupra: études microbiologique et chimique. Rapport final. CA NMET/DSS/MER 94, Ottawa, Canada, 1994. Section Recycling 9 De Coninck, A.S. & Karam, A. Residual effect of lime on pH of sulfide tailings submerged with water over 10 years. pp 691 -700. Proceedings of the 31st Annual Meeting & Conference of the Canadian Land Reclamation Association (CLRA) and the 9th Meeting of th e International Affiliation of Land Reclamationists (IALR). CLRA(ed.),‘Reclamation and Remediation: Policy to Practice’. August 20 -23, 2006, Ottawa, Ontario. Canada. 10 Shehataa M.H. & Thomas M.D.A. The role of alkali content of Portland cement on the e xpansion of concrete prisms containing reactive aggregates and supplementary cementing materials. Cement and Concrete Research, vol. 40, pp 569–574, 2008. 11 Pressler E.E., Brunauer S., Kantro D.L. & Weise C.H. Determination of the Free Calcium Hydroxid e Contents of Hydrated Portland Cements and Calcium Silicates. Analytical Chemistry, vol. 33, pp 877–882, 1961. 12 Miadoková M. The kinetics and mechanism of dissolving of calcite with formation of solid products . Collection of Czech oslovak Chemical Comm unications, vol. 35, pp 2840–2846, 1970. 13 Hong S.Y. & Glasser F.P. Alkali binding in cement pastes: part I, the C –S–H phase. Cement and Concrete Research, vol. 29, pp 1893–1903, 1999. 14 Chen W. & Brouwers. H.J.H. Alkali binding in hydrated Portland cement paste. Cement and Concrete Research, vol. 40, pp 716–722, 2010. 15 Cement & Concrete Institute. Guide to the safe use of Portland cements & concrete. Midrand, South Africa, 2009. 16 Lamond J.F. & Pielert J.H. Significance of tests and propertie s of concrete & concrete-making materials. ASTM STP, 169 d. West Conshohocken, Pa.: ASTM , 2006. 17 Apha ne, M.E. The hydration of magnesium oxide with different reactivities by water and magnesium acetate. M.Sc. thesis. Pretoria: Department of Chemistry , University of South Africa. South Africa, 2007.

  4. 1 Donahue R.L., Miller R.W. & Shickluna J.C. Soils: an introduction to soils and plant gro wth. 6th edition. Prentice-Hall, 1977. 2 Stumm W. & Morgan J.J. Aquatic Chemistry. Wiley, New York, 1996. 3 Calvet R. Le sol. 2nd edition. Editions France Agricole. Paris, 2013. 4 Barrow N.J. The accumulation of soil organic matter under pasture and its effect on soil properties. Australian Journal of Agriculture and Anim al Husbandry, vol. 9 , pp 437–444, 1969. 5 Kim G. Influence of physicochemical properties of soil on pH of pore water. Environmental Engineering, vol. 4, pp 233–237, 2000. 6 De Coninck, A.S., Karam, A. & Parent, L.- É. 2008. pH buffering capacity of copper-mine tailing amended with a peat-moss and shrimp wastes compost. Program and Abstract Book, p .

  5. 36. The Annual Meeting of the ASA, CSSA, and SSSA Northeastern Branch with Canadian Society of Agronomy, and Canadian Society of Horticultural Science. July 13-16, 2008. McGill University, Montréal, Québec, Canada. 7 Ritcey, G.M. Tailings management. Problems and solutions in the mining industry. Process metallurgy

  6. 6. Elsevier Science Publishers B.V. The Netherlands, 1989. 8 Karam A. & Guay R. Inondation artificielle du parc à résidus miniers Solbec-Cupra: études microbiologique et chimique. Rapport final. CA NMET/DSS/MER 94, Ottawa, Canada, 1994. Section Recycling 9 De Coninck, A.S. & Karam, A. Residual effect of lime on pH of sulfide tailings submerged with water over 10 years. pp 691 -700. Proceedings of the 31st Annual Meeting & Conference of the Canadian Land Reclamation Association (CLRA) and the 9th Meeting of th e International Affiliation of Land Reclamationists (IALR). CLRA(ed.),‘Reclamation and Remediation: Policy to Practice’. August 20 -23, 2006, Ottawa, Ontario. Canada. 10 Shehataa M.H. & Thomas M.D.A. The role of alkali content of Portland cement on the e xpansion of concrete prisms containing reactive aggregates and supplementary cementing materials. Cement and Concrete Research, vol. 40, pp 569–574, 2008. 11 Pressler E.E., Brunauer S., Kantro D.L. & Weise C.H. Determination of the Free Calcium Hydroxid e Contents of Hydrated Portland Cements and Calcium Silicates. Analytical Chemistry, vol. 33, pp 877–882, 1961. 12 Miadoková M. The kinetics and mechanism of dissolving of calcite with formation of solid products . Collection of Czech oslovak Chemical Comm unications, vol. 35, pp 2840–2846, 1970. 13 Hong S.Y. & Glasser F.P. Alkali binding in cement pastes: part I, the C –S–H phase. Cement and Concrete Research, vol. 29, pp 1893–1903, 1999. 14 Chen W. & Brouwers. H.J.H. Alkali binding in hydrated Portland cement paste. Cement and Concrete Research, vol. 40, pp 716–722, 2010. 15 Cement & Concrete Institute. Guide to the safe use of Portland cements & concrete. Midrand, South Africa, 2009. 16 Lamond J.F. & Pielert J.H. Significance of tests and propertie s of concrete & concrete-making materials. ASTM STP, 169 d. West Conshohocken, Pa.: ASTM , 2006. 17 Apha ne, M.E. The hydration of magnesium oxide with different reactivities by water and magnesium acetate. M.Sc. thesis. Pretoria: Department of Chemistry , University of South Africa. South Africa, 2007.

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