Dr. Ali Ahmadi

Prof. Ali Ahmadi

Isfahan University of Technology, Iran

Assistant Professor



PhD., Shahid Bahonar University of Kerman, Mineral Processing Engineering

M.Sc., Shahid Bahonar University of Kerman, Mineral Processing Engineering

B.Sc., Shahid Bahonar University of Kerman, Mining Exploration Engineering


  1. A. Ahmadi,M. Khezri, A.A. Abdollahzadeh, M. Askari, 2014. Bioleaching of copper, nickel and cobalt from the low grade sulfidictailing of Golgohar Iron Mine, Iran. Hydrometallurgy 154, 1-8.
  2. A. Ahmadi, S.J. Mousavi, 2015.  The influence of physicochemical parameters on the bioleaching of zinc sulfide concentrates using a mixed culture of moderately thermophilic microorganisms. International Journal of Mineral Processing 135, 32-39.
  3. A.Ahmadi, 2015. Characterization and washability of pyrite in high sulphur coals from Tabas, Iran, Journal of Chemical Engineering and Chemistry Research2(1), 457-466.
  4. A. Ahmadi, M.R. Hosseini,2015. A Fuzzy Logic Model to Predict the Bioleaching Efficiency of Copper Concentrates in a Stirred Tank Reactor. International Journal of Nonferrous Metallurgy, Accepted for publication 4(1), 1-8.
  5. M.R. Hosseini, A. Ahmadi, 2015. Biological beneficiation of kaolin: A review on iron removal. Applied Clay Science 107, 238–245.
  6. A. Ahmadi,Sh. Heidarzadeh, E. Darezereshki, A.R. Mokhtari, H. Asadi Harouni, 2014. Optimization of competitive removal of heavy metal ions (Pb(II), Zn(II) and Cd(II)) using maghemite (γ-Fe2O3) nanoparticles. Journal of Geochemical Exploration, Accepted for publication 147, 151-158.
  7. M.H. Kiani, A. Ahmadi, H. Zilouei, 2014. Biological removal of sulphur and ash from fine-grained high pyritic sulphur coals using a mixed culture of mesophile microorganisms. Fuel 131, 89–95.
  8. A. Ahmadi, M. Ranjbar, M. Schaffie, 2012. Catalytic effect of pyrite on the leaching of chalcopyrite concentrates in chemical, biological and electrobiochemical systems. Minerals Engineering, 34, 11–18.
  9. A. Ahmadi, M. Ranjbar, M. Schaffie, 2013. Effect of activated carbon addition on the conventional and electrochemical bioleaching of chalcopyrite concentrates. Geomicrobiology 30(3), 237-244.
  10. A. Ahmadi, M. Ranjbar, M. Schaffie, J. Petersen, 2012. Kinetic Modeling of Bioleaching of Copper Sulfide Concentrates in Conventional and Electrochemically controlled Systems. Hydrometallurgy 127-128, 16-23.
  11. A. Ahmadi, 2012. Influence of Ferric and Ferrous Iron on Chemical and Bacterial Leaching of Copper Flotation Concentrates. International Journal of Nonferrous Metallurgy 3/1, 42-48.
  12. A. Ahmadi, M. Schaffie, J. Petersen, A. Schippers, M. Ranjbar, 2011. Conventional and electrochemical bioleaching of chalcopyrite concentrates by moderately thermophile bacteria at high pulp density.  Hydrometallurgy, 106(1-2), 84-92.
  13. A. Ahmadi, M. Ranjbar, M. Shafiei, Z. Manafi, 2010. Electrochemical bioleaching of high grade chalcopyrite flotation concentrate in a stirred tank reactor. Hydrometallurgy 104, 99-105.
  14. A. Ahmadi, M. Schaffie, Z. Manafi, M. Ranjbar, 2010. Optimization of copper concentrate bioleaching by mixed moderate thermophile bacteria. Journal of Separation Science and Engineering 2(1), 23-35.

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