Nabarlek Pit decommissioning migration of sulphate, nitrate and radium ions in groundwater - preliminary modelling
Appleyard, S.
E-Publications; E-Books; PublicationNT; Report ; 41/1984
1984-04-01
Made available via the Publications (Legal Deposit) Act 2004 (NT).
Date:1984-04
English
Dept. of Transport and Works
Darwin
Report ; 41/1984
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https://hdl.handle.net/10070/228496
https://hdl.handle.net/10070/674076
Technical Report WRD84041 Viewed at 14:07:09 on 29/07/2010 Page 22 of 34. I I I I I I I I I I I I I I I I I I I I REFERENCES A.G.C. (Australian Ground\1ater Consultants), 1984. Hydrological Effects of Increased Tailings and Water Storage Level in Nabarlek pit in the Short and Long Term. Report 926/929 (Unpublished). ANTHONY, P.J., 1975. Nabarlek uranium deposit, in Knight, C.L. (Ed.), Economic Geoloqv of Australia and Papua New Guinea. Aust. Inst. Hin. Mwtall. Monograph Series No. 5,1. Metals, pp 304-308. FRIED, J.J., 1975. Groundwater Pollution. Elsevier Developments in Water Science Series, No.4. ROUSE, J. V. and iHLLIAlV!S, M. P .A., 1983. Geochemical interactions between acidic seepage plumes and natural rock materials, in Australia Water and Waste Water Association, International Specialist Conference on Water Regime in Relation to Milling, ~lining and Haste \'later Treatment Including Rehabilitation with Emphasis on Uranium Hining. Australasian ~1ater and Waste Water Association, Darwin. TRAIN, R.E., 1970. Quality Criteria for \'later. U.S. Environmental Protection Agency, Washington, D.C., 256 pp. TRELOAR, J.M., 1982. Seepage plume Characteristics and Movement at Nabarlek. NT Department of Mines and Energy. (Unpublished Report) . VAN GENUCHTEN, M.T., 1981. Analytical solutions for chemical transport Ivi th simultaneous adsorption, zero order production and first order decay. J. Hydro}., 49 pp 213-233. SA2/11 :TJ