Sulfide ore and a flotation concentrate from Fosterville contained 0.76% ca
rbonate carbon, 0.18% native carbon and 0.20% organic carbon of which 4.5 p
pm were n-alkane hydrocarbons. The concentrate yielded 0.99% native carbon,
0.28% carbonate carbon and 0.11% organic carbon of which 19.7 ppm was n-al
kane hydrocarbons. IR spectroscopy of the fulvic acid fraction of the flota
tion concentrate showed it to be similar to humic acid.
The addition of representative levels of n-alkane hydrocarbons, carbonate c
arbon and humic acid to the oxidised ore indicated that these components ha
d negligible effect on gold recovery. The addition of 0.2% native carbon de
creased gold recoveries from 84.4% to 68.8% while 0.2% activated carbon red
uced recovery to 3.1%. Native carbon when acidified mimicking the environme
nt of bacterial oxidation, resulted in recovery dropping from 84.4% to 61.0
%.
Gold recovery for a standard sulfide float was 92.5%. Sodium naphthalene su
lfonate (SNS) was the only depressant to lower native carbon levels in the
concentrates without reducing gold recovery. 275 g/t SNS depressed 45% of t
he native carbon and gold recovery was unchanged. Nitric acid oxidation and
subsequent cyanidation of the SNS concentrates lead to overall gold recove
ry improving from 88.3% for a standard sulfide float to 92.0%. (C) 1999 Els
evier Science Ltd. All rights reserved.