C       1        2       3       4       5        6
                                                                                                       139






                      203. G.M. Gadd, Bioremedial potential of microbial mechanisms of metal mobilization and immobilization,
                           Curr. Opin. Biotechnol. 11 (3) (2000) 271–279.
                      204. T. Ogata, Y.H. Kim, Y. Nakano, Selective recovery process for gold utilizing a functional gel derived
                           from natural condensed tannin, J. Chem.Eng. Jpn 40 (3) (2007) 270–274.
                      205. Y.-H. Kim, T. Ogata,Y. Nakano, Kinetic analysis of palladium(II) adsorption process on condensed-
                           tannin gel based on redox reaction models, Water Res. 41 (14) (2007) 3043–3050.
                      206. H. Antrekowitsch, M. Potesser,W. Spruzina et al., Metallurgical recycling of electronic scrap, TMS
                           Annual Meeting, 899–908.
                      207. S.A. Shuey, P. Taylor,Reviewof pyrometallurgical treatment of electronic scrap, Mining Eng. 57 (4)
                           (2005) 67–70.
                      208. Aarne P. Vesilind, Unit Operations in Resource Recovery Engineering, 1981.
                      209. Jia Li, Hongzhou Lu, Shushu Liu, Zhenming Xu, Optimizing the operating parameters of corona
                           electrostatic separation for recycling waste scraped printed circuit boards by computer simulation
                           of electric field, Journal of Hazardous Materials 153 (2008) 269–275.
                      210. J. Wu, et al., Electrostatic separation for multisize granule of crushed printed circuit board waste
                           using tworoll separator, J. Hazard. Mater. 159 (2008) 230–234.
                      211.  J.Wu, J. Li, Z. Xu, Electrostatic separation for recovering metals and nonmetals from waste printed
                           circuit board: problems and improvements, Environ. Sci.Technol. 42 (2008) 5272–5276.
                      212. G. Hilson, A.J. Monhemius, Alternatives to cyanide in the gold mining industry: what prospects for
                           the future, J. Cleaner Prod. 14 (12–13) (2006) 1158–1167.
                      213. N. Gonen, E. Korpe, M.E. Yildirim, et al., Leaching and CIL processes in gold recovery from refrac-
                           tory ore with thiourea solutions, Miner. Eng.20 (6) (2007) 559–565.
                      214. P. Quinet, J. Proost, A. Van Lierde, Recovery of precious metals from electronic scrap by hydromet-
                           allurgical processing routes, Miner. Metall.Process. 22 (1) (2005) 17–22.
                      215. A.G. Chmielewski,T.S. Urbanski,W. Migdal, Separation technologies for metals recovery from
                           industrial wastes, Hydrometallurgy 45 (3) (1997) 333–344.
                      216. A. Mecucci, K. Scott, Leaching and electrochemical recovery of copper,lead and tin from scrap
                           printed circuit boards, J. Chem. Technol. Biotechnol. 77 (4) (2002) 449–457.

                      217. Y.H. Kim, Y. Nakano, Adsorption mechanism of palladium by redox within condensed-tannin gel,
                           Water Res. 39 (7) (2005) 1324–1330.

                      218. J. Guo et al.,  Recycling of nonmetallic fractions from waste printed circuit boards: A review, Journal
                           of Hazardous Materials 168 (2009) 567–590.