Dr Paulina Quintanilla
Lecturer in Chemical Engineering
Quad North 049
- Email: paulina.quintanilla@brunel.ac.uk
- Tel: +44 (0)1895 266433
- Chemical Engineering
- College of Engineering, Design and Physical Sciences
Quintanilla, P., Navia, D., Neethling, SJ. and Brito-Parada, PR. (2023) 'Evaluation of Changes in Feed Particle Size within an Economic Model Predictive Control Strategy for Froth Flotation'.22nd World IFAC Congree. Yokohama, Japan. 22 - 14 July. Elsevier BV. pp. 2317 - 2322. ISSN: 2405-8963 Open Access Link
Quintanilla, P., Navia, D., Neethling, SJ. and Brito-Parada, PR. (2023) 'Economic model predictive control for a rougher froth flotation cell using physics-based models'. Minerals Engineering, 196. pp. 1 - 16. ISSN: 0892-6875 Open Access Link
Quintanilla, P., Navia, D., Moreno, F., Neethling, SJ. and Brito-Parada, PR. (2023) 'A methodology to implement a closed-loop feedback-feedforward level control in a laboratory-scale flotation bank using peristaltic pumps'. MethodsX, 10. pp. 1 - 15. ISSN: 2215-0161 Open Access Link
Mesa, D., Quintanilla, P. and Reyes, F. (2022) 'Bubble Analyser — An open-source software for bubble size measurement using image analysis'. Minerals Engineering, 180. pp. 1 - 4. ISSN: 0892-6875 Open Access Link
Quintanilla, P., Neethling, SJ., Mesa, D., Navia, D. and Brito-Parada, PR. (2021) 'A dynamic flotation model for predictive control incorporating froth physics. Part II: Model calibration and validation'. Minerals Engineering, 173. pp. 1 - 15. ISSN: 0892-6875 Open Access Link
Quintanilla, P., Neethling, SJ., Navia, D. and Brito-Parada, PR. (2021) 'A dynamic flotation model for predictive control incorporating froth physics. Part I: Model development'. Minerals Engineering, 173. pp. 1 - 23. ISSN: 0892-6875 Open Access Link
Quintanilla, P., Neethling, SJ. and Brito-Parada, PR. (2020) 'Modelling for froth flotation control: A review'. Minerals Engineering, 162. pp. 106718 - 106718. ISSN: 0892-6875
Navia, D., Puen, A., Quintanilla, P., Briceño, L. and Bergh, L. (2019) 'On dealing with measured disturbances in the modifier adaptation method for real-time optimization'. Computers and Chemical Engineering, 128. pp. 141 - 163. ISSN: 0098-1354