Difference between revisions of "Benchmarking: BondBarratt - Detour Lake"

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* Wi<sub>RM</sub> use 50<sup>th</sup> percentile = 18.0 kWh/tonne.
 
* Wi<sub>RM</sub> use 50<sup>th</sup> percentile = 18.0 kWh/tonne.
 
* Wi<sub>C</sub> use 50<sup>th</sup> percentile = 14.8 kWh/tonne.
 
* Wi<sub>C</sub> use 50<sup>th</sup> percentile = 14.8 kWh/tonne.
* Plant availability = 94.4%
+
* Plant availability = 87%
   
 
Mill criteria
 
Mill criteria
Line 105: Line 105:
   
 
If we claim that 7% difference between April/May and the 2015 data, then the differences become:
 
If we claim that 7% difference between April/May and the 2015 data, then the differences become:
* Etotal : model 7% low
+
* Etotal : actual = 19.5 kWh/t, model 7% low
* t/h : model 13% high
+
* t/h : actual = 2700 t/h, model 13% high
   
 
The ultimate capacity of this circuit hasn't been established yet, so it could very likely continue to improve and approach the model numbers.
 
The ultimate capacity of this circuit hasn't been established yet, so it could very likely continue to improve and approach the model numbers.
  +
  +
Trying the Raw Bond/Barratt model and comparing to the April/May 2015 values, the model predicts:
  +
* Etotal : 18.3 kWh/t, model 1% high
  +
* t/h : 2992 t/h, model 2% high

Latest revision as of 02:12, 5 November 2015

Benchmarking: Bond/Barratt SAG Mill Specific Energy Consumption - Detour Lake

  • J. Torrealba-Vargas, J.-F. Dupont, J. McMullen, A. Allaire and R. Welyhorsky, The successful development of the detour lake grinding circuit: from testwork to production. Proceedings of the SAG 2015 Conference, September 2015, Vancouver, Canada, Paper 38.

Operating data from 2015, A×b looks similar to 50th percentile from the October 2012 NI43-101 report.

"Current value" data, table 7 from the reference

  • Throughput = 2×1,258 = 2,516 dry tonnes per hour
  • SAG circuit F80 = 90.7 mm (pre-crusher product)
  • circuit P80 = 90 µm
  • SAG power draw (at motor input, per mill) = 13,424 kW (at mill shell = 12,694 kW)
  • SAG mill ball charge = 17 % vol
  • SAG mill total charge = 24.3 % vol
  • SAG mill discharge % solids = 70% weight
  • SAG mill speed 80.24% of critical
  • ESAG at mill shell = (2×12,694)/2,516 = 10.1 kWh/t
  • pebble crushers typically draw 322 kW
  • Epeb = (2×322)/2,516 = 0.26 kWh/t
  • ball mill power draw (at motor input, per mill) = 13,982 kW (at mill shell = 13,221 kW)
  • ball mill % solids = 80% weight
  • ball mill total charge = 25.4
  • ball mill speed = 79.61% of critical
  • Ebm at mill shell = (2×13,221)/2,516 = 10.5 kWh/t

Design Criteria

  • Ore A×b = 26.6, between 25th and 50th percentiles
  • WiBM use 50th percentile = 14.3 kWh/tonne.
  • WiRM use 50th percentile = 18.0 kWh/tonne.
  • WiC use 50th percentile = 14.8 kWh/tonne.
  • Plant availability = 87%

Mill criteria

  • SAG mills: two 36 foot nom diam by 17.25 foot effective grinding length (EGL)
  • ball mill: two 25 foot nom diam by 38.0 foot EGL (flange-to-flange length 38.5)
  • SAG mills, each twin variable speed motor 7000 kW (each mill)
  • Ball mill, each twin (assumed variable speed) motors 7500 kW (each mill)

Modelling

SAG mill is modelled using following:

  • Austin SAG model
  • ore density 2.9 t/m³
  • SAG liners nominal 4 inch liner thickness
  • liner thickness based on JK Simulation in Table 3
  • effective dimensions 10768 mm diam × 5334 mm EGL
  • predicted SAG power draw at mill shell = 13,448 kW (5.9% higher than actual)

Ball mill is modelled using following:

  • Nordberg ball mill wet overflow with density correction
  • ore density 2.9 t/m³
  • ball mill nominal 90 mm liner thickness
  • liner thickness based on JK Simulation in Table 3
  • effective dimensions 7439 mm diam × 11581 mm EGL
  • predicted ball mill power at mill shell = 13,273 kW (0.4% higher than actual)

Results

Benchmarking-DetourLake.png

Result for default Optimized Bond/Barratt model conditions:

Esag Epeb Ebm Etotal t/h
Predicted 9.0 0.2 8.8 18.0 3004
2015 data 10.1 0.3 10.5 20.9 2516
Difference 1.1 0.1 1.7 2.9 508
Difference model 12% low model 33% low model 16% low model 14% low model 20% high

Discussion

The mill is in the final stages of ramp-up, and has not reached its ultimate capacity. Figure 5 shows they are consistently exceeding 2,700 t/h in April & May of 2015, suggesting they can do 7% more than the data in Table 7.

If we claim that 7% difference between April/May and the 2015 data, then the differences become:

  • Etotal : actual = 19.5 kWh/t, model 7% low
  • t/h : actual = 2700 t/h, model 13% high

The ultimate capacity of this circuit hasn't been established yet, so it could very likely continue to improve and approach the model numbers.

Trying the Raw Bond/Barratt model and comparing to the April/May 2015 values, the model predicts:

  • Etotal : 18.3 kWh/t, model 1% high
  • t/h : 2992 t/h, model 2% high