Controlled high pressure grinding roll by model predictive control

Fernando Cepeda Vaca; Lorenzo Reyes-Bozo; Hector Valdes-Gonzalez; Carlos Funez Guerra; Rosa Galleguillos-Pozo; Marcelo V. Garcia; Eduardo Vyhmeister

doi:10.1109/CCAC.2017.8276385

Controlled high pressure grinding roll by model predictive control

Fernando Cepeda Vaca
, Lorenzo Reyes-Bozo
, Hector Valdes-Gonzalez
, Carlos Funez Guerra
, Rosa Galleguillos-Pozo
, Marcelo V. Garcia
, Eduardo Vyhmeister

Universidad de las Fuerzas Armadas ESPE
Universidad Central de Chile
Universidad del Desarrollo
Centro Nacional del Hidrógeno
Universidad Técnica de Ambato

Research output: Chapter in Book/Report/Conference proceedings › Conference proceeding › peer-review

Abstract

High Pressure Grinding Rolls (HPGR) technology has been considered as an alternative in the mining industry. This consideration has been given by its energy efficient characteristics (i.e. lower energy consumption compared to other types of technologies. such as semiautogenous technologies). Mathematical models that describe the behavior of this equipment are used to evaluate and predict yields (in terms of granulometric distribution), nevertheless their use and consideration for control processes is scarce. The present work focuses in the development of a dynamic representation of a HPGR unit, and the control of it, by considering a first order kinetic representation of the grinding process and the total energy consumed by the HPGR as the main controlled variable. The model considers a dynamic evaluation of the rolls peripheral velocity, the operational gap, and the feed mass flow as manipulated variables (the first two can be directly correlated to energy) while the density in the extrusion zone and the 80% size percentile were selected as the controlled variables. As result, it was observed that the model has a correct representation of the phenomena involved and that the selected variables are useful manipulated variables to control the energy consumed by the equipment.

Original language	English
Title of host publication	2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings
Editors	Diego Patino, Eugenio Yime
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1-6
Number of pages	6
ISBN (Electronic)	9781538603987
DOIs	https://doi.org/10.1109/CCAC.2017.8276385
Publication status	Published - 2 Jul 2017
Externally published	Yes
Event	3rd IEEE Colombian Conference on Automatic Control, CCAC 2017 - Cartagena, Colombia Duration: 18 Oct 2017 → 20 Oct 2017

Publication series

Name	2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings
Volume	2018-January

Conference

Conference	3rd IEEE Colombian Conference on Automatic Control, CCAC 2017
Country/Territory	Colombia
City	Cartagena
Period	18/10/17 → 20/10/17

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy
SDG 9 Industry, Innovation, and Infrastructure

Keywords

Dynamic modelling
HPGR
MPC
simulation

Access to Document

10.1109/CCAC.2017.8276385

Cite this

Vaca, F. C., Reyes-Bozo, L., Valdes-Gonzalez, H., Guerra, C. F., Galleguillos-Pozo, R., Garcia, M. V., & Vyhmeister, E. (2017). Controlled high pressure grinding roll by model predictive control. In D. Patino, & E. Yime (Eds.), 2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings (pp. 1-6). (2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings; Vol. 2018-January). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CCAC.2017.8276385

Vaca, Fernando Cepeda ; Reyes-Bozo, Lorenzo ; Valdes-Gonzalez, Hector et al. / Controlled high pressure grinding roll by model predictive control. 2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings. editor / Diego Patino ; Eugenio Yime. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 1-6 (2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings).

@inproceedings{845b7a3a199d45d39b0d87402064dc01,

title = "Controlled high pressure grinding roll by model predictive control",

abstract = "High Pressure Grinding Rolls (HPGR) technology has been considered as an alternative in the mining industry. This consideration has been given by its energy efficient characteristics (i.e. lower energy consumption compared to other types of technologies. such as semiautogenous technologies). Mathematical models that describe the behavior of this equipment are used to evaluate and predict yields (in terms of granulometric distribution), nevertheless their use and consideration for control processes is scarce. The present work focuses in the development of a dynamic representation of a HPGR unit, and the control of it, by considering a first order kinetic representation of the grinding process and the total energy consumed by the HPGR as the main controlled variable. The model considers a dynamic evaluation of the rolls peripheral velocity, the operational gap, and the feed mass flow as manipulated variables (the first two can be directly correlated to energy) while the density in the extrusion zone and the 80\% size percentile were selected as the controlled variables. As result, it was observed that the model has a correct representation of the phenomena involved and that the selected variables are useful manipulated variables to control the energy consumed by the equipment.",

keywords = "Dynamic modelling, HPGR, MPC, simulation",

author = "Vaca, \{Fernando Cepeda\} and Lorenzo Reyes-Bozo and Hector Valdes-Gonzalez and Guerra, \{Carlos Funez\} and Rosa Galleguillos-Pozo and Garcia, \{Marcelo V.\} and Eduardo Vyhmeister",

note = "Publisher Copyright: {\textcopyright} 2017 IEEE.; 3rd IEEE Colombian Conference on Automatic Control, CCAC 2017 ; Conference date: 18-10-2017 Through 20-10-2017",

year = "2017",

month = jul,

day = "2",

doi = "10.1109/CCAC.2017.8276385",

language = "English",

series = "2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "1--6",

editor = "Diego Patino and Eugenio Yime",

booktitle = "2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings",

address = "United States",

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Vaca, FC, Reyes-Bozo, L, Valdes-Gonzalez, H, Guerra, CF, Galleguillos-Pozo, R, Garcia, MV & Vyhmeister, E 2017, Controlled high pressure grinding roll by model predictive control. in D Patino & E Yime (eds), 2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings. 2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings, vol. 2018-January, Institute of Electrical and Electronics Engineers Inc., pp. 1-6, 3rd IEEE Colombian Conference on Automatic Control, CCAC 2017, Cartagena, Colombia, 18/10/17. https://doi.org/10.1109/CCAC.2017.8276385

Controlled high pressure grinding roll by model predictive control. / Vaca, Fernando Cepeda; Reyes-Bozo, Lorenzo; Valdes-Gonzalez, Hector et al.
2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings. ed. / Diego Patino; Eugenio Yime. Institute of Electrical and Electronics Engineers Inc., 2017. p. 1-6 (2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings; Vol. 2018-January).

Research output: Chapter in Book/Report/Conference proceedings › Conference proceeding › peer-review

TY - GEN

T1 - Controlled high pressure grinding roll by model predictive control

AU - Vaca, Fernando Cepeda

AU - Reyes-Bozo, Lorenzo

AU - Valdes-Gonzalez, Hector

AU - Guerra, Carlos Funez

AU - Galleguillos-Pozo, Rosa

AU - Garcia, Marcelo V.

AU - Vyhmeister, Eduardo

PY - 2017/7/2

Y1 - 2017/7/2

N2 - High Pressure Grinding Rolls (HPGR) technology has been considered as an alternative in the mining industry. This consideration has been given by its energy efficient characteristics (i.e. lower energy consumption compared to other types of technologies. such as semiautogenous technologies). Mathematical models that describe the behavior of this equipment are used to evaluate and predict yields (in terms of granulometric distribution), nevertheless their use and consideration for control processes is scarce. The present work focuses in the development of a dynamic representation of a HPGR unit, and the control of it, by considering a first order kinetic representation of the grinding process and the total energy consumed by the HPGR as the main controlled variable. The model considers a dynamic evaluation of the rolls peripheral velocity, the operational gap, and the feed mass flow as manipulated variables (the first two can be directly correlated to energy) while the density in the extrusion zone and the 80% size percentile were selected as the controlled variables. As result, it was observed that the model has a correct representation of the phenomena involved and that the selected variables are useful manipulated variables to control the energy consumed by the equipment.

AB - High Pressure Grinding Rolls (HPGR) technology has been considered as an alternative in the mining industry. This consideration has been given by its energy efficient characteristics (i.e. lower energy consumption compared to other types of technologies. such as semiautogenous technologies). Mathematical models that describe the behavior of this equipment are used to evaluate and predict yields (in terms of granulometric distribution), nevertheless their use and consideration for control processes is scarce. The present work focuses in the development of a dynamic representation of a HPGR unit, and the control of it, by considering a first order kinetic representation of the grinding process and the total energy consumed by the HPGR as the main controlled variable. The model considers a dynamic evaluation of the rolls peripheral velocity, the operational gap, and the feed mass flow as manipulated variables (the first two can be directly correlated to energy) while the density in the extrusion zone and the 80% size percentile were selected as the controlled variables. As result, it was observed that the model has a correct representation of the phenomena involved and that the selected variables are useful manipulated variables to control the energy consumed by the equipment.

KW - Dynamic modelling

KW - HPGR

KW - MPC

KW - simulation

UR - https://www.scopus.com/pages/publications/85047394658

U2 - 10.1109/CCAC.2017.8276385

DO - 10.1109/CCAC.2017.8276385

M3 - Conference proceeding

AN - SCOPUS:85047394658

T3 - 2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings

SP - 1

EP - 6

BT - 2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings

A2 - Patino, Diego

A2 - Yime, Eugenio

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 3rd IEEE Colombian Conference on Automatic Control, CCAC 2017

Y2 - 18 October 2017 through 20 October 2017

ER -

Vaca FC, Reyes-Bozo L, Valdes-Gonzalez H, Guerra CF, Galleguillos-Pozo R, Garcia MV et al. Controlled high pressure grinding roll by model predictive control. In Patino D, Yime E, editors, 2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings. Institute of Electrical and Electronics Engineers Inc. 2017. p. 1-6. (2017 IEEE 3rd Colombian Conference on Automatic Control, CCAC 2017 - Conference Proceedings). doi: 10.1109/CCAC.2017.8276385

Controlled high pressure grinding roll by model predictive control

Abstract

Publication series

Conference

UN SDGs

Keywords

Access to Document

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