11
REFERENCES
[1] Chandramohan, R., Erwin, K., &Meinke, C. (2023).
Effective comminution circuit process control for
highly variable feed -a technical guide. Comminution.
Cape Town.
[2] Powell, M., Hilden, M., &Mainza, A. (2015).
Common operational issues on SAG mill circuits.
SAG Conference. Vancouver.
[3] Chandramohan, R., Lane, G., Pyle, M., &Whittering,
R. (2019). SAG mill liner selection to maximize pro-
ductivity. Procemin Geomet. Santiago.
[4] Van Der Westhuizen, A., &Powell, M. (2006).
Milling curves as a tool for characterising SAG
mill performance. SAG Conference, (S. 217–232).
Vancouver.
[5] Morrell, S. (2016). Modelling the influence on power
draw of the slurry phase in AG, SAG and ball mills.
Minerals Engineering, 148–156.
[6] FLSmidth. www.flsmidth.com/en-gb/products
/p r o c e s s -c o n t r o l -a n d -o p t i m i s a t i o n
/knowledgescape-loadiq.
[7] Molycop Tools. www.molycop.com/supporting
-customers/moly-cop-tools/.
[8] Chandramohan, R., Braun, R., Lane, G., Hollis, K.,
Le, J., &Baas, D. (2018). SAG mill optimisation and
increasing throughput at the Phu Kham copper-gold
operation -a success story. Mill Operators Conference.
Brisbane.
[9] Morrell, S. (2019). How to Formulate an Effective
Ore Comminution Characterization. Metallurgical
Plant Design and Operating Strategies. Perth.
[10] Engelhardt, D., Seppelt, J., Waters, T., Apfelt, A.,
Lane, G., Yahyaei, M., &Powell, M. (2015). The
Cadia HPGR-SAG circuit -from design to opera-
tion -the commissioning challenge. SAG Conference.
Vancouver.
[11] Lind, P., Erwin, K., Chandramohan, R., Tweed,
D., Lane, G., Staples, P., ...Patterson, B. (2019).
Optimisation opportunities at Newmont Goldcorp’s
Penasquito operation. SAG Conference. Vancouver.
[12] Napier-Munn, T., Morrell, S., Morrison, R., &
Kojovic, T. (1996). Mineral comminution circuits
their operation and optimisation. Indooroopilly: Julius
Kruttschnitt Mineral Research Centre.
[13] Erwin, K., Meinke, C., Chandramohan, R., Lane,
G., &Foggiatto, B. (2023). Pebble crushing circuits:
a SAG mill’s unappreciated saviour. SAG Conference.
Vancouver.
[14] Kaltech. kaltechsentinel.com/sentinel-mining-mill
-camera-unit/.
[15] Thornton, A. (2010). SAG mill control it shouldn’t
be that hard. Engineering and Mining Journal: www
.e-mj.com/features/sag-mill-control-it-shouldnt-be
-that-hard/.
[16] Powell, M., &Valery, W. (2006). Slurry pooling and
transport issues in SAG mills. SAG Conference, (S.
133–152). Vancouver.
[17] Powell, M., Smit, I., Radziszewski, P., Cleary, P.,
Rattray, B., Eriksson, K.-G., &Schaeffer, L. (2006).
The Selection and Design of Mill Liners. In Advances
in Comminution (S. 331). 376: Society for Mining,
Metallurgy &Exploration.
REFERENCES
[1] Chandramohan, R., Erwin, K., &Meinke, C. (2023).
Effective comminution circuit process control for
highly variable feed -a technical guide. Comminution.
Cape Town.
[2] Powell, M., Hilden, M., &Mainza, A. (2015).
Common operational issues on SAG mill circuits.
SAG Conference. Vancouver.
[3] Chandramohan, R., Lane, G., Pyle, M., &Whittering,
R. (2019). SAG mill liner selection to maximize pro-
ductivity. Procemin Geomet. Santiago.
[4] Van Der Westhuizen, A., &Powell, M. (2006).
Milling curves as a tool for characterising SAG
mill performance. SAG Conference, (S. 217–232).
Vancouver.
[5] Morrell, S. (2016). Modelling the influence on power
draw of the slurry phase in AG, SAG and ball mills.
Minerals Engineering, 148–156.
[6] FLSmidth. www.flsmidth.com/en-gb/products
/p r o c e s s -c o n t r o l -a n d -o p t i m i s a t i o n
/knowledgescape-loadiq.
[7] Molycop Tools. www.molycop.com/supporting
-customers/moly-cop-tools/.
[8] Chandramohan, R., Braun, R., Lane, G., Hollis, K.,
Le, J., &Baas, D. (2018). SAG mill optimisation and
increasing throughput at the Phu Kham copper-gold
operation -a success story. Mill Operators Conference.
Brisbane.
[9] Morrell, S. (2019). How to Formulate an Effective
Ore Comminution Characterization. Metallurgical
Plant Design and Operating Strategies. Perth.
[10] Engelhardt, D., Seppelt, J., Waters, T., Apfelt, A.,
Lane, G., Yahyaei, M., &Powell, M. (2015). The
Cadia HPGR-SAG circuit -from design to opera-
tion -the commissioning challenge. SAG Conference.
Vancouver.
[11] Lind, P., Erwin, K., Chandramohan, R., Tweed,
D., Lane, G., Staples, P., ...Patterson, B. (2019).
Optimisation opportunities at Newmont Goldcorp’s
Penasquito operation. SAG Conference. Vancouver.
[12] Napier-Munn, T., Morrell, S., Morrison, R., &
Kojovic, T. (1996). Mineral comminution circuits
their operation and optimisation. Indooroopilly: Julius
Kruttschnitt Mineral Research Centre.
[13] Erwin, K., Meinke, C., Chandramohan, R., Lane,
G., &Foggiatto, B. (2023). Pebble crushing circuits:
a SAG mill’s unappreciated saviour. SAG Conference.
Vancouver.
[14] Kaltech. kaltechsentinel.com/sentinel-mining-mill
-camera-unit/.
[15] Thornton, A. (2010). SAG mill control it shouldn’t
be that hard. Engineering and Mining Journal: www
.e-mj.com/features/sag-mill-control-it-shouldnt-be
-that-hard/.
[16] Powell, M., &Valery, W. (2006). Slurry pooling and
transport issues in SAG mills. SAG Conference, (S.
133–152). Vancouver.
[17] Powell, M., Smit, I., Radziszewski, P., Cleary, P.,
Rattray, B., Eriksson, K.-G., &Schaeffer, L. (2006).
The Selection and Design of Mill Liners. In Advances
in Comminution (S. 331). 376: Society for Mining,
Metallurgy &Exploration.