More than 80% of Western Australian iron ore contains an average of 0.15% p
hosphorus, and attracts a penalty due to its high level of phosphorus when
it is exported. At the current rate of mining, identified premium grade iro
n ore with low phosphorus content (<005%) will be depleted in 30 years. The
development of an economical dephosphorisation process is critical for the
future success of the Western Australian iron ore industry.
In the current work, effective dephosphorisation of Western Australian iron
has been demonstrated. Sulphuric acid was chosen as the leachant on the ba
sis of its availability and low cost. The iron ore sample used in this stud
y typically contained 0.126% phosphorus, was from the Pilbara region of Wes
tern Australia. After roasting at 1250 degrees C, lump ore (P-80 5.6 mm), p
ellet 1 (grinding to 100% -1.5 mm before pelletisation) and pellet 2 (grind
ing to 100% -0.15 mm before pelletisation) were leached in solutions with d
ifferent sulphuric acid concentrations. After leaching for 5 hours at 60 de
grees C in 0.1 M sulphuric acid solution, 67.2%, 69.0% and 68.7% of the pho
sphorus was leached from the above three samples, respectively. The phospho
rus content was reduced from 0.126% to 0.044%, 0.055% and 0.042% respective
ly. The dissolution of iron during leaching was negligible. The optimum sul
phuric acid concentration was 0.1 M in terms of acid cost and iron loss. Th
e acid consumption cost is as low as $A 0.47/tonne. (C) 1999 Elsevier Scien
ce Ltd. All rights reserved.