Benchmarking: Ball Mill Power Draw Models
Benchmarking: Ball Mill Power Draw - Fimiston
- Nelson, M; Valery, W; Morrell, S, Performance Characteristics and Optimisation of the Fimiston (KCGM) SAG Mill Circuit, Page 233 - 248, SAG 1996 Conference, Vancouver, Canada.
Survey | Survey Power, kW at input |
Mill speed, %critical |
Total load, %v/v |
Pulp %solids, w/w |
Morrell SAG Model, kW at input / shell |
Nordberg Model, kW at input / shell |
---|---|---|---|---|---|---|
Survey 1 | 3,864 | 68.3 | 38.7 | 72.0 | 3,933 / 3,776 | 3,592 / 3,345 |
- Morrell model predicts 2% high
- Nordberg model predicts 7% low
Benchmarking: Ball Mill Power Draw - Meadowbank
- Muteb, P. & Allaire, J., Meadowbank Mine Process Plant Throughput Increase, Proceedings of the Canadian Mineral Processors Annual General Meeting, Ottawa, Canada, January 2013.
The ball mill design given as:
- Diameter inside shell: 18 ft
- Length (assumed to be flange-to-flange length): 29 ft
- Effective grinding length: 28.5 ft (using rule-of-thumb half-foot basis)
- Motor size: 6,000 horsepower (4,474 kW)
- Overflow mill with synchronous motor assumed
The operating conditions of the May 2012 survey, including the pre-crushing circuit given as:
- Mill speed 14.19 rpm (75% critical)
- Volumetric filling 30.6% v/v
- Ball charge 30.6% v/v
- Ore density 2.93 kg/L
- Grindability: A×b 38.6; WiBM 10.9 kWh/t
Liners assumed to be an effective thickness of 3 inches. DCS power is assumed to be indicated (mill power measurements × 0.985 pinion × 0.96 motor eff equals power "at mill shell"). Model power measurements are shown "at DCS".
DCS Power, kW | Mill filling | Morrell Model, kW | Nordberg model, kW | |
---|---|---|---|---|
May 2012 | 4,341 | 30.6% v/v | 4,765 (+9.3%) | 4,423 (+1.9%) |