Email this article Reagent Dosage Control for the Antimony Flotation Process Based on Froth Size Pdf Tracking and an Index Predictive Model
- Authors: Cao B.1,2, Xie Y.1, Yang C.1, Gui W.1, Li J.2
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Affiliations:
- School of Information Science and Engineering
- College of Physics and Electronics Science
- Issue: Vol 55, No 3 (2019)
- Pages: 452-468
- Section: Mineral Dressing
- URL: https://journals.rcsi.science/1062-7391/article/view/184703
- DOI: https://doi.org/10.1134/S1062739119035794
- ID: 184703
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Abstract
A reagent dosage hybrid control strategy for the antimony flotation process is proposed in this work. This strategy consists of two parts: reagent dosage tracking control based on a froth size probability density function (PDF) and reagent dosage compensation control based on a distributed-machine vision predictive model. The proposed method was tested on a gold-antimony flotation process, and it improved tailings qualification rate, and reduced the tailings standard deviation. This method also efficiently accounts for the influence of disturbances on the flotation system and improves the stability and effectiveness of the flotation system.
About the authors
Bin-fang Cao
School of Information Science and Engineering; College of Physics and Electronics Science
Email: xieyongfang2013@163.com
China, Changsha, 410083; Hunan, 415000
Yong-fang Xie
School of Information Science and Engineering
Author for correspondence.
Email: xieyongfang2013@163.com
China, Changsha, 410083
Chun-hua Yang
School of Information Science and Engineering
Email: xieyongfang2013@163.com
China, Changsha, 410083
Wei-hua Gui
School of Information Science and Engineering
Email: xieyongfang2013@163.com
China, Changsha, 410083
Jian-qi Li
College of Physics and Electronics Science
Email: xieyongfang2013@163.com
China, Hunan, 415000
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