A novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programming

A novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programming

Regarding the high corrosion resistance of brass in sulfuric acid, its leaching process is the most important step in hydrometallurgical recovery of brass scraps. In this study, the electrochemical dissolution of brass chips in sulfuric acid has been investigated. The electrochemical cell...

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Main Authors: Ghasemi S., Vaghar S., Pourzafar M., Dehghani H., Heidarpour A.
Format: Article
Language:English
Published: Technical Faculty, Bor 2020-01-01
Series:Journal of Mining and Metallurgy. Section B: Metallurgy
Subjects:
electrochemical dissolution
recovery
brass scrap
predictive model
gep
Online Access:http://www.doiserbia.nb.rs/img/doi/1450-5339/2020/1450-53392000012G.pdf
id doaj-5d626991a3c844929f640bf1dd2a67f5
record_format Article
spelling doaj-5d626991a3c844929f640bf1dd2a67f52020-11-25T03:33:08ZengTechnical Faculty, BorJournal of Mining and Metallurgy. Section B: Metallurgy1450-53392217-71752020-01-0156223724510.2298/JMMB190924012G1450-53392000012GA novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programmingGhasemi S.0Vaghar S.1Pourzafar M.2Dehghani H.3Heidarpour A.4Hamedan University of Technology, Department of Metallurgy and Materials Engineering, Hamedan, IranHamedan University of Technology, Department of Metallurgy and Materials Engineering, Hamedan, IranDepartment of Mining Engineering, Hamedan University of Technology, Hamedan, IranHamedan University of Technology, Hamedan, IranHamedan University of Technology, Department of Metallurgy and Materials Engineering, Hamedan, IranRegarding the high corrosion resistance of brass in sulfuric acid, its leaching process is the most important step in hydrometallurgical recovery of brass scraps. In this study, the electrochemical dissolution of brass chips in sulfuric acid has been investigated. The electrochemical cell voltage depends on various parameters. Regarding the complexity of electrochemical dissolution, the system voltage could not be easily predicted based on the operational parameters of the cell. So, it is necessary to use modeling techniques to predict cell voltage. In this study, 139 leaching experiments were conducted under different conditions. Using the experimental results and gene expression programming (GEP), parameters such as acid concentration, current density, temperature and anode-cathode distance were entered as the inputs and the voltage of the electrochemical dissolution was predicted as the output. The results showed that GEP-based model was capable of predicting the voltage of electrochemical dissolution of brass alloy with correlation coefficient of 0.929 and root square mean error (RSME) of 0.052. Based on the sensitivity analysis on the input and output parameters, acid concentration and anode-cathode distance were the most and least effective parameters, respectively. The modeling results confirmed that the proposed model is a powerful tool in designing a mathematical equation between the parameters of electrochemical dissolution and the voltage induced by variation of these parameters.http://www.doiserbia.nb.rs/img/doi/1450-5339/2020/1450-53392000012G.pdfelectrochemical dissolutionrecoverybrass scrappredictive modelgep
collection DOAJ
language English
format Article
sources DOAJ
author Ghasemi S.
Vaghar S.
Pourzafar M.
Dehghani H.
Heidarpour A.
spellingShingle Ghasemi S.
Vaghar S.
Pourzafar M.
Dehghani H.
Heidarpour A.
A novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programming
Journal of Mining and Metallurgy. Section B: Metallurgy
electrochemical dissolution
recovery
brass scrap
predictive model
gep
author_facet Ghasemi S.
Vaghar S.
Pourzafar M.
Dehghani H.
Heidarpour A.
author_sort Ghasemi S.
title A novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programming
title_short A novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programming
title_full A novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programming
title_fullStr A novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programming
title_full_unstemmed A novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: Application of gene expression programming
title_sort novel predictive model for estimation of cell voltage in electrochemical recovery of copper from brass: application of gene expression programming
publisher Technical Faculty, Bor
series Journal of Mining and Metallurgy. Section B: Metallurgy
issn 1450-5339
2217-7175
publishDate 2020-01-01
description Regarding the high corrosion resistance of brass in sulfuric acid, its leaching process is the most important step in hydrometallurgical recovery of brass scraps. In this study, the electrochemical dissolution of brass chips in sulfuric acid has been investigated. The electrochemical cell voltage depends on various parameters. Regarding the complexity of electrochemical dissolution, the system voltage could not be easily predicted based on the operational parameters of the cell. So, it is necessary to use modeling techniques to predict cell voltage. In this study, 139 leaching experiments were conducted under different conditions. Using the experimental results and gene expression programming (GEP), parameters such as acid concentration, current density, temperature and anode-cathode distance were entered as the inputs and the voltage of the electrochemical dissolution was predicted as the output. The results showed that GEP-based model was capable of predicting the voltage of electrochemical dissolution of brass alloy with correlation coefficient of 0.929 and root square mean error (RSME) of 0.052. Based on the sensitivity analysis on the input and output parameters, acid concentration and anode-cathode distance were the most and least effective parameters, respectively. The modeling results confirmed that the proposed model is a powerful tool in designing a mathematical equation between the parameters of electrochemical dissolution and the voltage induced by variation of these parameters.
topic electrochemical dissolution
recovery
brass scrap
predictive model
gep
url http://www.doiserbia.nb.rs/img/doi/1450-5339/2020/1450-53392000012G.pdf
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