TY - JOUR ID - 757 TI - An Optimized Integrated Process for the Bioleaching of a Spent Refinery Processing Catalysts JO - International Journal of Environmental Research JA - IJER LA - en SN - 1735-6865 AU - Noori Felegari, Z. AU - Nematdoust Haghi, B. AU - Amoabediny, Gh. AU - Mousavi, S.M. AU - Amouei Torkmahalleh, M. AD - School of Chemical Engineering, University College of Engineering, University of Tehran, Box 11155-4563, Tehran, Iran AD - Biotechnology Group, Department of Chemical Engineering, Tarbiat Modares University, Tehran, Iran AD - Chemical Engineering Program, Middle East Technical University Northern Cyprus Campus, Guzelyurt, Mersin 10, Turkey Y1 - 2014 PY - 2014 VL - 8 IS - 3 SP - 621 EP - 634 KW - Spent Catalysts KW - Bioleaching KW - Acidithiobacillus ferrooxidans KW - Central composite design DO - 10.22059/ijer.2014.757 N2 - Bioleaching of spent refinery processing catalysts using adapted indigenous strains ofAcidithiobacillus ferrooxidans to recover Ni and Mo, and the separation of Ni from bioleaching liquor usingiron magnetic nanoparticles were optimized in this study. Bioleaching optimization was performed usingcentral composite design (CCD) method to optimize temperature (32 to 38oC), initial pH (1.5 to 2), particlesize (-30 to -190μm sieve fraction) and pulp density (0.1 to 0.5%). The maximum values for Mo and Niextraction were determined to be 62.72 and 92.34%, respectively, at 34 ºC, -90.38μm sieve fraction, 0.22 %pulp density and initial pH of 1.8 under controlled pH condition. The results of bioleaching study suggest theshaking bioreactor as a suitable tool to optimize pulp density at low values for scale up purposes. Theoptimum pH value for Ni adsorption from synthetically made Ni solutions was found to be 8. The Niadsorption increased with increasing temperature and the mass of the adsorbent. The percentage of Ni adsorption from a bioleaching liquor contained 30 ppm Ni and 5g/l magnetic nanoparticles was determined to be 97% after 1 hour at 34oC and pH 8. An integrated process for bioleaching of Ni and Mo from spent catalysts and adsorption of Ni using magnetic nanoparticles has been proposed in this study. UR - https://ijer.ut.ac.ir/article_757.html L1 - https://ijer.ut.ac.ir/article_757_d96b33111f0cdb54e96710ee96e2ec84.pdf ER -