Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching Model

Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching Model

Bacteria–mineral contact and noncontact leaching models coexist in the bioleaching process. In the present paper, dialysis bags were used to study the bioleaching process by separating the bacteria from the mineral, and the reasons for chalcopyrite surface passivation were discussed. The results sho...

Full description

Bibliographic Details
Main Authors: Pengcheng Ma, Hongying Yang, Zuochun Luan, Qifei Sun, Auwalu Ali, Linlin Tong
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:Minerals
Subjects:
chalcopyrite
bacteria leaching
passivation
jarosite
Online Access:https://www.mdpi.com/2075-163X/11/3/230
id doaj-cedd8db9ef854db3ba851571a4f7b5c2
record_format Article
spelling doaj-cedd8db9ef854db3ba851571a4f7b5c22021-02-25T00:05:36ZengMDPI AGMinerals2075-163X2021-02-011123023010.3390/min11030230Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching ModelPengcheng Ma0Hongying Yang1Zuochun Luan2Qifei Sun3Auwalu Ali4Linlin Tong5Technology Center, Shandong Zhaojin Group Co., Ltd., No.108 Shengtai Road, Zhaoyuan City 265400, ChinaSchool of Metallurgy, Northeastern University, 3-11 Wenhua Road, Shenyang 110819, ChinaTechnology Center, Shandong Zhaojin Group Co., Ltd., No.108 Shengtai Road, Zhaoyuan City 265400, ChinaTechnology Center, Shandong Zhaojin Group Co., Ltd., No.108 Shengtai Road, Zhaoyuan City 265400, ChinaSchool of Metallurgy, Northeastern University, 3-11 Wenhua Road, Shenyang 110819, ChinaSchool of Metallurgy, Northeastern University, 3-11 Wenhua Road, Shenyang 110819, ChinaBacteria–mineral contact and noncontact leaching models coexist in the bioleaching process. In the present paper, dialysis bags were used to study the bioleaching process by separating the bacteria from the mineral, and the reasons for chalcopyrite surface passivation were discussed. The results show that the copper leaching efficiency of the bacteria–mineral contact model was higher than that of the bacteria–mineral noncontact model. Scanning electron microscopy (SEM), X-ray diffraction (XRD), and Fourier-transform infrared (FTIR) were used to discover that the leaching process led to the formation of a sulfur film to inhibit the diffusion of reactive ions. In addition, the deposited jarosite on chalcopyrite surface was crystallized by the hydrolysis of the excess Fe<sup>3+</sup> ions. The depositions passivated the chalcopyrite leaching process. The crystallized jarosite in the bacteria EPS layer belonged to bacteria–mineral contact leaching system, while that in the sulfur films belonged to the bacteria–mineral noncontact system.https://www.mdpi.com/2075-163X/11/3/230chalcopyritebacteria leachingpassivationjarosite
collection DOAJ
language English
format Article
sources DOAJ
author Pengcheng Ma
Hongying Yang
Zuochun Luan
Qifei Sun
Auwalu Ali
Linlin Tong
spellingShingle Pengcheng Ma
Hongying Yang
Zuochun Luan
Qifei Sun
Auwalu Ali
Linlin Tong
Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching Model
Minerals
chalcopyrite
bacteria leaching
passivation
jarosite
author_facet Pengcheng Ma
Hongying Yang
Zuochun Luan
Qifei Sun
Auwalu Ali
Linlin Tong
author_sort Pengcheng Ma
title Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching Model
title_short Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching Model
title_full Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching Model
title_fullStr Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching Model
title_full_unstemmed Leaching of Chalcopyrite under Bacteria–Mineral Contact/Noncontact Leaching Model
title_sort leaching of chalcopyrite under bacteria–mineral contact/noncontact leaching model
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2021-02-01
description Bacteria–mineral contact and noncontact leaching models coexist in the bioleaching process. In the present paper, dialysis bags were used to study the bioleaching process by separating the bacteria from the mineral, and the reasons for chalcopyrite surface passivation were discussed. The results show that the copper leaching efficiency of the bacteria–mineral contact model was higher than that of the bacteria–mineral noncontact model. Scanning electron microscopy (SEM), X-ray diffraction (XRD), and Fourier-transform infrared (FTIR) were used to discover that the leaching process led to the formation of a sulfur film to inhibit the diffusion of reactive ions. In addition, the deposited jarosite on chalcopyrite surface was crystallized by the hydrolysis of the excess Fe<sup>3+</sup> ions. The depositions passivated the chalcopyrite leaching process. The crystallized jarosite in the bacteria EPS layer belonged to bacteria–mineral contact leaching system, while that in the sulfur films belonged to the bacteria–mineral noncontact system.
topic chalcopyrite
bacteria leaching
passivation
jarosite
url https://www.mdpi.com/2075-163X/11/3/230
work_keys_str_mv AT pengchengma leachingofchalcopyriteunderbacteriamineralcontactnoncontactleachingmodel
AT hongyingyang leachingofchalcopyriteunderbacteriamineralcontactnoncontactleachingmodel
AT zuochunluan leachingofchalcopyriteunderbacteriamineralcontactnoncontactleachingmodel
AT qifeisun leachingofchalcopyriteunderbacteriamineralcontactnoncontactleachingmodel
AT auwaluali leachingofchalcopyriteunderbacteriamineralcontactnoncontactleachingmodel
AT linlintong leachingofchalcopyriteunderbacteriamineralcontactnoncontactleachingmodel
_version_ 1724252230139248640

Similar Items