90 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Quintanilla, P., Navia, D., Neethling, S. J., &Brito-Parada,
P. R. (2023a). Economic model predictive control for
a rougher froth flotation cell using physics-based mod-
els. Minerals Engineering, 196, 108050. doi: 10.1016/J.
MINENG.2023.108050.
Quintanilla, P., Navia, D., Moreno, F., Neethling, S.
J., &Brito-Parada, P. R. (2023b). A methodology
to implement a closed-loop feedback-feedforward
level control in a laboratory-scale flotation bank
using peristaltic pumps. MethodsX, 10. doi: 10.1016
/j.mex.2023.102081.
Quintanilla, P., Neethling, S. J., &Brito-Parada, P. R.
(2021a). Modelling for froth flotation control: A
review. Minerals Engineering, 162, 106718. doi:
10.1016/j.mineng.2020.106718.
Quintanilla, P., Neethling, S. J., Navia, D., &Brito-
Parada, P. R. (2021b). A dynamic flotation
model for predictive control incorporating froth
physics. Part I: Model development. Minerals
Engineering, 173(November), 107192. doi: 10.1016
/j.mineng.2021.107192.
Quintanilla, P., Neethling, S. J., Mesa, D., Navia, D.,
&Brito-Parada, P. R. (2021c). A dynamic flotation
model for predictive control incorporating froth phys-
ics. Part II: Model calibration and validation. Minerals
Engineering, 173(November), 107190. doi: 10.1016/j.
mineng.2021.107190.
Riquelme, A., Desbiens, A., Del Villar, R., &Maldonado,
M. (2016). Predictive control of the bubble size dis-
tribution in a two-phase pilot flotation column.
Minerals Engineering, 89, 71–76. doi: 10.1016
/j.mineng.2016.01.014
Quintanilla, P., Navia, D., Neethling, S. J., &Brito-Parada,
P. R. (2023a). Economic model predictive control for
a rougher froth flotation cell using physics-based mod-
els. Minerals Engineering, 196, 108050. doi: 10.1016/J.
MINENG.2023.108050.
Quintanilla, P., Navia, D., Moreno, F., Neethling, S.
J., &Brito-Parada, P. R. (2023b). A methodology
to implement a closed-loop feedback-feedforward
level control in a laboratory-scale flotation bank
using peristaltic pumps. MethodsX, 10. doi: 10.1016
/j.mex.2023.102081.
Quintanilla, P., Neethling, S. J., &Brito-Parada, P. R.
(2021a). Modelling for froth flotation control: A
review. Minerals Engineering, 162, 106718. doi:
10.1016/j.mineng.2020.106718.
Quintanilla, P., Neethling, S. J., Navia, D., &Brito-
Parada, P. R. (2021b). A dynamic flotation
model for predictive control incorporating froth
physics. Part I: Model development. Minerals
Engineering, 173(November), 107192. doi: 10.1016
/j.mineng.2021.107192.
Quintanilla, P., Neethling, S. J., Mesa, D., Navia, D.,
&Brito-Parada, P. R. (2021c). A dynamic flotation
model for predictive control incorporating froth phys-
ics. Part II: Model calibration and validation. Minerals
Engineering, 173(November), 107190. doi: 10.1016/j.
mineng.2021.107190.
Riquelme, A., Desbiens, A., Del Villar, R., &Maldonado,
M. (2016). Predictive control of the bubble size dis-
tribution in a two-phase pilot flotation column.
Minerals Engineering, 89, 71–76. doi: 10.1016
/j.mineng.2016.01.014