期刊
MINERALS ENGINEERING
卷 189, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.mineng.2022.107884
关键词
Artificial intelligence; Mineral concentration; Gravity separation; Density separation; Magnetic separation; Sensor-based sorting (SBS)
资金
- National Research Foundation of Korea (NRF) - Ministry of Education
- Korea government (MSIT)
- [NRF-2021R1I1A1A01054655]
- [2022R1A5A1032539]
This article reviews the application of artificial intelligence in various unit operations for mineral concentration. Using AI for yield prediction can add value to control, as the yields are not necessarily linearly correlated with input variables. The current research neglects fundamental variables as inputs, and instrumentation and industrial simplicity have hindered their consideration.
Although various articles have reviewed the application of artificial intelligence (AI) in froth flotation (sum-marized in this article), other unit operations for mineral concentration in mineral processing have not been reviewed. Thus, this article reviews AI application in various unit operations for mineral concentration. Because unit operations for mineral concentration deal with yields not necessarily linearly correlated with input vari-ables, subsequent yield prediction using AI can add value to their control. The current applications of AI have neglected fundamental variables (e.g., particle agglomeration, particle magnetic susceptibility, particle wetta-bility, particle surface charge, and particle Hamaker constant) as inputs for prediction. Instrumentation and industrial simplicity have hindered the consideration of those variables because validation is required. There are kind learning (repeated patterns and high accuracy measurements) and wicked learning (continuously novel patterns and noise in measurements) environments, which are suitable and challenging for machine learning, respectively. Kind learning environments were largely used for the applications of AI. Furthermore, flow can be captured by AI (e.g., neural networks) to attempt to control drag and mixing using synthetic jet type actuators in equipment (shaking tables, fluidized beds, or vessels). Thus, future applications of AI should consider these points.
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