Kar, B.B., Murthy, B.V.R., Misra, V.N., 2005. Extraction of molybdenum from spent catalyst by salt-roasting. International Journal of Mineral Processing. 76, 143-147. Kummer, J.T., 1979. Mineral Commodity Profiles U.S Dept. of the İnterior, Bureau of Mines. Lai, Y.C., Lee, W.J., Huang, K.L., Huang, H.H., 2007. Emissions of polycyclic aromatic hydrocarbons from thermal pre-treatment of waste hydrodesulfurization catalysts. Chemosphere 69, 200-208 Marafi, M., Stainlaus, A., 2003. Options and processes for spent catalyst handling and utilization. Journal of Hazardous Materials B101, 123-132 Mefos, Y.G., 2006. Recovery of Vanadium from LD slag, a state of the art report, Part 1-Facts and metallurgy of vanadium. Jernkontorets- (rapor). Mineral Information Institute, İnternet sitesi. www.mii.org . Erişim Tarihi: 20.06.2008. Mineral Commodity Summaries, 2008. Montgomery, D.C., 1991. Design and Analysis of Experiments. 3rd. ed., Arizona State University, John Wiley & Sons. Moskalyk, R.R., Alfantazi, A.M., 2003. Processing of vanadium: a review. Minerals Engineering 16, 793-805. Nikanor, İnternet sitesi. www.nikanor.co.uk Erişim Tarihi: 20.11.2008. Northcott, L., 1956. Butterworths Scientific Publications (London) Ognyanova, A., Michelis, I.D., Ferella, F., Taglieri, G., Veglio, F., 2008. Metal extraction from spent HDS catalyst by alkaline and acid leaching. Acta Metallurgica Slovaca 14, 204-211 Park, K.H., Mohapatra, D., Reddy, B., 2006. Selective recovery of molybdenum from spent HDS catalyst using oxidative soda ash leach/ carbon adsorption method. Journal of Hazardous Materials B138, 311-316. Park, K.H., Mohapatra, D., Reddy, B., Nam, C.W., 2006. Hydrometallurgical processing and recovery of molybdenum trioxide from spent catalyst. International Journal of Mineral Processing 80, 261-265. Park, K.H., Mohapatra, D., Nam, C.W., 2007. Two stage leaching of activated spent HDS catalyst and solvent extraction of aluminium using organo-phosphinic extractant, Cyanex 272. Journal of Hazardous Materials 148, 287-295. 86
Roland, L.C., David, M.H., 1982. The influence of zinc on the surface properties of cobalt-alumina catalysts. Journal of Catalysis 74, 121-128. Sutulov, A., 1979. International Molybdenum Encyclopedia. 1778–1978vol 11, Santiago, Chile . Ullmann’s Encyclopedia of Industrial Chemistry Fifth edition on cd-rom, 2007. Valverde.Jr., I.M., Paulino, J.F., Afonso, J.C., 2008. Hydrometallurgical routeto recover molybdenum, nickel, cobalt and aluminum from spent hydrotreating catalysts in sulphuric acid medium. Journal of Hazardous Materials 160, 310-317. Villarreal, M.S., Kharisov, B.I., Torres-Martínez, L.M., Elizondo, V.N., 1999. Recovery of vanadium and molbdenum from spent petroleum catalyst of PEMEX. Ind. Engineering. Chemcal. Res., 38, 4624-4628 Wikipedia, 2007. Free Enclopedia on the internet. Wikipedia Foundation Inc. 87
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T.C. SÜLEYMAN DEMİREL ÜNİVERSİ
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3.2.1.1. Çözündürme ve Analiz..
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ABSTRACT M.Sc. Thesis ACIDIC AND AL
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ŞEKİLLER DİZİNİ Şekil 2.1. Ko
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ÇİZELGELER DİZİNİ Çizelge 1.1
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SİMGELER VE KISALTMALAR DİZİNİ
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Ağır metallerin endüstriyel atı
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Çizelge 1.1. Tez kapsamı Faz No B
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demir, nikel ve alüminyumun belirg
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Çizelge 2.1. Kobaltın karakterist
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Çizelge 2.2. En önemli kobalt min
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Cumhuriyeti, cevherlerinin çok dah
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oftalmoskoplarda filtre olarak, pil
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• Yüksek hız çeliklerinde, •
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Taşınabilir elektronik aletler i
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2.2.Molibden 2.2.1. Tarihsel Geliş
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fakat Şile ve Amerika’da daha uc
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Çizelge 2.5b Molibdenin özellikle
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• Kontakt Metamorfik Yataklar: Mo
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madencilik ise Çin’deki en büy
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demirlere mekanik direncin arttır
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Çizelge 2.8b Molibden ürünlerini
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kullanılırlar; diğer aktif inhib
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