Optimization Capabilities for Crushing Plants
Doktorsavhandling, 2022
To examine the complex relationships and interdependencies of the physical processes of crushing plants, a simulation platform can be used at the design stage. Process simulation for crushing plants can be classified as either steady-state simulation or dynamic simulation. The steady-state simulation models are based on instantaneous mass balancing while the dynamic simulation models can capture the process change over time due to non-ideal operating conditions. Both simulation types can replicate the process performance at different fidelities for industrial applications but are limited in application for everyday operation. Most companies operating crushing plants are equipped with digital data-collection systems capturing continuous production data such as mass flow and power draw. The use of the production data for the daily decision-making process is still not utilized to its full potential. There are opportunities to integrate optimization functions with the simulation platform and digital data platforms to create decision-making functionality for everyday operation in a crushing plant. This thesis presents a multi-layered modular framework for the development of the optimization capabilities in a crushing plant aimed at achieving process optimization and process improvements. The optimization capabilities for crushing plants comprise a system solution with the two-fold application of 1) Utilizing the simulation platform for identification and exploration of operational settings based on the stakeholder’s need to generate knowledge about the process operation, 2) Assuring the reliability of the equipment model and production data to create validated process simulations that can be utilized for process optimization and performance improvements.
During the iterative development work, multiple optimization methods such as multi-objective optimization (MOO) and multi-disciplinary optimization (MDO) are applied for process optimization. An adaptation of the ISO 22400 standard for the aggregates production process is performed and applied in dynamic simulations of crushing plants. A detailed optimization method for calibration and validation of process simulation and production data, especially for mass flow data, is presented. Standard optimization problem formulations for each of the applications are demonstrated, which is essential for the replicability of the application. The proposed framework poses a challenge in the future development of a large-scale integrated digital solution for realizing the potential of production data, simulation, and optimization. In conclusion, optimization capabilities are essential for the modernization of the decision-making process in crushing plant operations.
Key Performance Indicators (KPIs)
Crushing
Digital Twin
Modelling
Calibration
Multi-Disciplinary Optimization (MDO)
Dynamic Simulations
Multi-Objective Optimization (MOO)
Screening
Process Optimization
Process Improvement
Production Data
Författare
Kanishk Bhadani
Chalmers, Industri- och materialvetenskap, Produktutveckling
State of the Art in Application of Optimization Theory in Minerals Processing
European Symposium on Comminution and Classification, Izmir, Turkey,;(2017)
Övrigt konferensbidrag
Application of multi-disciplinary optimization architectures in mineral processing simulations
Minerals Engineering,;Vol. 128(2018)p. 27-35
Artikel i vetenskaplig tidskrift
Comparative Study of Optimization Schemes in Mineral Processing Simulations
IMPC 2018 - 29th International Mineral Processing Congress,;Vol. 2019(2019)p. 464-473
Paper i proceeding
Development and implementation of key performance indicators for aggregate production using dynamic simulation
Minerals Engineering,;Vol. 145(2020)
Artikel i vetenskaplig tidskrift
Applied Calibration and Validation Method of Dynamic Process Simulation for Crushing Plants
Minerals,;Vol. 11(2021)
Artikel i vetenskaplig tidskrift
Application of Optimization Method for Calibration and Maintenance of Power-Based Belt Scale
Minerals,;Vol. 11(2021)
Artikel i vetenskaplig tidskrift
To address this challenge, multiple methods to facilitate process performance improvements and optimization for a crushing plant operation are presented. A multi-layered modular framework for the development of the optimization capabilities in a crushing plant is presented. The framework demonstrates the use of a parallel simulation system to the physical system for creating a decision-making tool for a crushing plant operation. The development is striving towards creating a digital twin of physical processes to create operational guidance for crushing plants.
The optimization capabilities for crushing plants comprise a system solution with a two-fold application. The first is to utilize the simulation platform for identification and exploration of operational settings based on the stakeholder’s need to generate knowledge about the process operation. The second is to assure the reliability of the equipment model and production data to create validated process simulations that can be utilized for process optimization and performance improvements. The presented methods can enable integration of optimization functions with the simulation platform and digital data platforms to create useful decision-making functionality for everyday operation in a crushing plant. Optimization capabilities are essential for the modernization of the decision-making process in crushing plant operations.
Optimering av verkliga processer för bergmaterialproduktion
Svenska Byggbranschens Utvecklingsfond (SBUF) (13753), 2019-11-01 -- 2022-06-30.
Ämneskategorier
Mineral- och gruvteknik
Maskinteknik
Produktionsteknik, arbetsvetenskap och ergonomi
Drivkrafter
Hållbar utveckling
Styrkeområden
Produktion
ISBN
978-91-7905-635-3
Doktorsavhandlingar vid Chalmers tekniska högskola. Ny serie: 5101
Utgivare
Chalmers
Virtual Development Laboratory (VDL), Chalmers Tvärgata 4C, Göteborg
Opponent: Professor Jan Rosenkranz, Luleå University of Technology, Sweden (Password: 791088)