Difference between revisions of "Benchmarking: Bond - Cadia East"
(Created page with "category:benchmarking category:Bond/Barratt Model ==Benchmarking: Bond/Barratt - Cadia== ''Engelhardt, D., Robertson, J., Lane, G., Powwel, M.S. and Griffin, P.'', '''...") |
(No difference)
|
Revision as of 21:21, 31 January 2015
Contents
Benchmarking: Bond/Barratt - Cadia
Engelhardt, D., Robertson, J., Lane, G., Powwel, M.S. and Griffin, P., Cadia Expansion - From open pit to block cave and beyond. Proceedings of MetSoc 2012.
Design criteria and plant trial of underground Cadia East ore
Ore characterization
- blased underground ore, secondary crushed to 80 mm.
- WiC = 30 (metric)
- WiRM = 26.5 (metric)
- WiBM = 21.4 (metric)
- DWI = 9.9
- density = 2.7 t/m³
Modelling
Details of the mill operating conditions are not given, but the power draw at the shell is given.
- 15.737 MW SAG mill power draw
- 19.509 MW ball mill power draw
Circuit operating conditions:
- F80 = 80 mm
- P80 = 140 µm
- instantaneous throughput = 1482 t/h
The mill load, ball charge and pulp density was tweaked to mimic these power draws, corresponding to:
- SAG operating 9% v/v balls, 25.5% v/v total filling and 78% of critical speed (Austin model has fixed %solids)
- ball mills operating 37% v/v total filling and 70% w/w solids (fixed speed mills, 72% speed)
The ball load required to match the reported power draw is very high, and could only be achieved with a significant reduction in the trunnion diameter (using ball retaining rings). Moreover, the motors are predicted to be operating at 100.5% of their rated output power to achive the indicated power draw; drawing full power.
Model results
ESAG | Eball | Etotal | ||
---|---|---|---|---|
Model | 12.2 kWh/t | 15.1 kWh/t | 27.7 kWh/t | 1294 t/h |
Measured | 10.6 kWh/t | 13.2 kWh/t | 23.8 kWh/t | 1482 t/h |
Difference | 1.6 kWh/t | 1.9 kWh/t | 3.9 kWh/t | -188 t/h |
Difference | 15% | 14% | 16% | -13% |