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Transcript 
THE EFFECT OF IRON REMOVAL FROM RAFFINATE ON THE
COPPER BIOLEACHING PROCESS
B. Nazari1, H. Hani1, *E. Jorjani1,2, A. Ghahremaninezhad2, Z. Manafi3, F. Hasani1, A. Riahi3
1
2
Department of Mining Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
The Robert M. Buchan Department of Mining, Queen's University, Goodwin Hall, 25 Union St., Kingston,
Ontario K7L 3N6, Canada
(*Corresponding author: [email protected])
3
Hydrometallurgy Research Center, Sarcheshmeh Copper Complex, National Iranian Copper Industries
Company, Iran
ABSTRACT
The presence of a high iron concentration, 9.1 g/L, in the raffinate of the Sarcheshmeh copper
heap bioleach process led to the formation of various types of jarosite, (K,Na,NH 4,H3O)Fe3(SO4)2(OH)6, on
the heap mineral surfaces.This study probes iron removal from the raffinate using a bio-oxidation process
based on A. ferrooxidans bacteria in the presence and absence of jarosite seed. The jarosite seed was
biologically synthesized using A. ferrooxidans bacteria. The effect of solution pH (1.5 to 2.5) and jarosite
seed dosage (0 to 15 wt.%) on iron removal was examined. It was demonstrated that the concentration of
iron ions present in the raffinate decreased from 9.1 g/L to 2.5 g/L with the addition of 10 wt.%jarosite
seed at pH 2 and 130 rpm mixing rate at 32°C. Three different types of raffinate including (1) native
raffinate containing 9.1, 3.4, 5.7 g/L of total, ferric and ferrous iron, respectively, (2) bio-oxidized raffinate
in the absence of the jarosite seed containing 8.5 g/L total iron (mainly ferric with negligible ferrous), (3)
bio-oxidized raffinate in the presence of jarosite seed containing 2.55 g/L total iron (mainly ferric with
negligible ferrous) were used in mesophilic, moderate thermophilic and thermophilic bioleaching
processes. The results of the flask tests showed that the highest copper bioleaching recoveries of 9.4, 49.4
and 90.8 % were achieved using raffinate (3) with mesophilic, moderate thermophilic and thermophilic
bioleaching processes, respectively.
KEYWORDS
Raffinate, iron removal, jarosite seed, bioleaching, bacteria, copper
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