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Investigation of Mechanochemical Leaching of Non-Ferrous Metals

REFERENCES 1. Cetintas, S., Yildiz, U., Bingol, D. (2018), A novel reagent-assisted mechanochemical method for nickel recovery from lateritic ore, Journal of Cleaner Production , 199, 616–632. 2. De Oliveira D.M., Sobral L.G.S., Olson G.J., Olson S.B. (2014), Acid leaching of a copper ore by sulphur-oxidizing microorganisms, Hydrometallurgy , 147-148, 223–227. 3. Dmitrak Yu.V., Kamnev Ye.N. (2016), The leading design and scientific-research institute of industrial technology – the way 65 years long (in Russian), Mining Journal , 3, 6

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Comparison of Hexavalent Chromium Leaching Levels of Zeoliteand Slag-based Concretes

References [1] Baker P. G. & Bishop P. L. (1997). Prediction of metal leaching rates from solidified/stabilized wastes using the shrinking unreacted core leaching procedure. Journal of Hazardous Materials.52, 311-333. DOI: 10.1016/S0304-3894(96)01814-6. [2] Douglas E. & Brandstetr J. (1990). A preliminary study on the alkali activation of ground granulated blast-furnace slag. Cement and Concrete Research. 20 (5), 746-756. DOI: 10.1016/0008-8846(90)90008-L. [3] Salman M., Cizer Ö., Pontikes Y., Snellings R., Vandewalle L., Blanpain B. & Balen K

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Assessment of the influences of climate variability on nitrogen leaching rate into groundwater

Nitrate Leaching. In: Regional Assessment of Global Change Impacts, Mauser, W., Prasch, M. (eds.). Springer: Cham; pp. 623-629. [14] Li, C. (2009): User`s guide for the DNDC model - Vesion 9.3. University of New Hampshire, 88 p. [15] Uhan, J. (2011): Ranljivost podzemne vode na nitratno onesnaženje v aluvialnih vodonosnikih Slovenije. Doktorska disertacija. Ljubljana; Univerza v Ljubljani 2011; 163 p. [16] PKS, (2007): Pedološka karta Slovenije. Ministrstvo za kmetijstvo, gozdarstvo in prehrano. [cited 10. 2. 2008

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Microbiological Leaching; an Environmentally Friendly and Cost Effective Method for Extraction of Metals

REFERENCES 1. Acosta M., Galleguillos P., Ghorbani Y., Tapia P., Contador Y., Velásquez A., Espoz C., Pinilla C. and Demergasso C., 2014 – Variation in microbial community from predominantly mesophilic to thermotolerant and moderately thermophilic species in an industrial copper heap bio-leaching operation, Hydrometallurgy , 150, 281-289. 2. Ashton P. J., Love D., Mahachi H., Dirks P. H. G. M., 2001 – An overview of the impact of mining and mineral processing operations on water resources and water quality in the Zambezi, Limpopo and Olifants

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Studies on hydrometallurgical processes using nuclear techniques to be applied in copper industry. II. Application of radiotracers in copper leaching from flotation tailings

-35. 6. Ahmed, I. M., Nayl, A. A., & Daoud, J. A. (2016). Leaching and recovery of zinc and copper from brass slag by sulfuric acid. J. Saudi Chem. Soc., 20, S280-S285. DOI: 10.1016/j.jscs.2012.11.003. 7. Urosevic, D. M., Dimitrijevic, M. D., & Jankovic, Z. D. (2015). Recovery of copper from copper slag and copper slag fl otation tailings by oxidative leaching. Physicochem. Probl. Miner. Pro., 51(1), 73-82. DOI: 10.5277/ppmp150107. 8. Mohanty, U. S., Rintala, L., Halli, P., Taskinen, P., & Lundström, M. (2018). Hydrometallurgical

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Parametric Optimization of Coal Desulfurization Through Alkaline Leaching

. (2006) Desulfurization of mezino coal using combination of ‘fl otation’and‘leaching with potassium hydroxide/methanol. Fuel 85(7), 1117. DOI: 10.1016/j.fuel.2005.10.011 10.1016/j.fuel.2005.10.011. 7. Demirbaş, A. (2002) Demineralization and desulfurization of coals via column froth fl otation and different methods. Energy Convers Manage 43(7), 885. DOI: 10.1016/S0196-8904(01)00088-7 10.1016/S0196-8904(01)00088-7. 8. Celik, M. & Yildirim, I. (2000) A new physical process for desulfurization of low-rank coals. Fuel 79(13), 1665. DOI: 10

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Studies on hydrometallurgical processes using nuclear techniques to be applied in copper industry. I. Application of 64Cu radiotracer for investigation of copper ore leaching

). Leaching of pyrite with hydrogen peroxide in sulphuric acid. Hydrometallurgy, 46, 71-83. 10. Marsden, J., Brewer, B., & Hazen, N. (2003). Copper concentrate leaching developments by Phelps Dodge Corporation. In C. Young, C. Anderson, D. Dreisinger, A. Alfantazi, A. James, & B. Harris (Eds.), Hydrometallurgy 2002. Proceedings of the 5th International Symposium honouring Professor Ian M. Ritchie (Vol. 2, pp. 1429-1446). Warrendale, PA: The Minerals, Metals and Materials Society. 11. Dreisinger, D. (2004). New developments in

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Leaching of Contamination from Stabilization/Solidification Remediated Soils of Different Texture

.J., Hills, C.D., Jones, H.M., MacLeod, C.L., Tyrer, M. Review of scientific literature on the use of stabilisation / solidification for the treatment of contaminated soils, solid wastes and sludges. In: Environmental Agency, Science Report SC980003/SR2 . Environmental Agency, UK, 2004. 5. Cocke, D.L., Mollah, M.Y.A. The chemistry and leaching mechanisms of hazardous substances in cementitious solidification/stabilization systems. In: Spence, R.D. (Ed.), Chemistry of Microestructure Solidified Waste Forms. Lewis Publishers , U.S.A., 1993, pp. 187

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Leaching behaviour of pendimethalin causes toxicity towards different cultivars of Brassica juncea and Brassica campestris in sandy loam soil

. Advances in Plant Science   34 : 192-196. Chopra I, Kumari B and Sharma SK. (2009). Evaluation of leaching behaviour of pendimethalin in sandy loam soil. Env Monit Assessment (accepted) -personal communication Dastane NG. (1974). Effective rainfall in irrigated agriculture. FAO Irrigation and Drainage Paper   25 : 16 Kulshrestha G, Sharma DN and Dewan RS. (1971). Determination of s-triazine herbicides (simazine and atrazine) in soil: A single step extraction and clean up method. Proc. First

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Removal of vanadium, potassium and iron from spent vanadium catalyst by leaching with citric acid at atmospheric pressure

optimum conditions for leaching the spent vanadium catalyst from metallurgical plants with sodium hydroxide solutions. Przem. Chem. 91 (2), 234-238 (in Polish). 14. Mazurek, K., Białowicz, K. & Trypuć, M. (2010). Extraction of vanadium compounds from the used vanadium catalyst with the potassium hydroxide solution. Pol. J. Chem. Techn. 12 (1), 23-28. DOI: 10.2478/v10026-010-0005-2. 15. Mazurek, K. & Trypuć, M. (2009). Recovery of the components of the spent vanadium catalyst with sulfuric(VI) acid solutions. Przem. Chem. 88 (11), 1248

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