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Cross-current leaching of indium from end-of-life LCD panels

[Display omitted] •End-of-life LCD panels represent a source of indium.•Several experimental conditions for indium leaching have been assessed.•Indium is completely extracted with 2M sulfuric acid at 80°C for 10min.•Cross-current leaching improves indium extraction and operating costs are lowered.•B...

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Published in:	Waste management (Elmsford) 2015-08, Vol.42, p.180-187
Main Authors:	Rocchetti, Laura, Amato, Alessia, Fonti, Viviana, Ubaldini, Stefano, De Michelis, Ida, Kopacek, Bernd, Vegliò, Francesco, Beolchini, Francesca
Format:	Article
Language:	English
Subjects:	ABUNDANCE Byproducts CARBON DIOXIDE Critical raw material Cross-current leaching Electronic Waste - analysis Emission analysis ENVIRONMENTAL PROTECTION ENVIRONMENTAL SCIENCES INDIUM Indium - chemistry LCD panel LEACHING Liquid crystal displays LIQUID CRYSTALS Liquid Crystals - chemistry MANAGEMENT OF RADIOACTIVE WASTES, AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES MATERIALS RECOVERY Mining OPERATING COST Panels Recycling - methods Refuse Disposal SOLID WASTES SULFURIC ACID Urban mining Waste Management - methods ZINC
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creator	Rocchetti, Laura Amato, Alessia Fonti, Viviana Ubaldini, Stefano De Michelis, Ida Kopacek, Bernd Vegliò, Francesco Beolchini, Francesca
description	[Display omitted] •End-of-life LCD panels represent a source of indium.•Several experimental conditions for indium leaching have been assessed.•Indium is completely extracted with 2M sulfuric acid at 80°C for 10min.•Cross-current leaching improves indium extraction and operating costs are lowered.•Benefits to the environment come from reduction of CO2 emissions and reagents use. Indium is a critical element mainly produced as a by-product of zinc mining, and it is largely used in the production process of liquid crystal display (LCD) panels. End-of-life LCDs represent a possible source of indium in the field of urban mining. In the present paper, we apply, for the first time, cross-current leaching to mobilize indium from end-of-life LCD panels. We carried out a series of treatments to leach indium. The best leaching conditions for indium were 2M sulfuric acid at 80°C for 10min, which allowed us to completely mobilize indium. Taking into account the low content of indium in end-of-life LCDs, of about 100ppm, a single step of leaching is not cost-effective. We tested 6 steps of cross-current leaching: in the first step indium leaching was complete, whereas in the second step it was in the range of 85–90%, and with 6 steps it was about 50–55%. Indium concentration in the leachate was about 35mg/L after the first step of leaching, almost 2-fold at the second step and about 3-fold at the fifth step. Then, we hypothesized to scale up the process of cross-current leaching up to 10 steps, followed by cementation with zinc to recover indium. In this simulation, the process of indium recovery was advantageous from an economic and environmental point of view. Indeed, cross-current leaching allowed to concentrate indium, save reagents, and reduce the emission of CO2 (with 10 steps we assessed that the emission of about 90kg CO2-Eq. could be avoided) thanks to the recovery of indium. This new strategy represents a useful approach for secondary production of indium from waste LCD panels.
doi_str_mv	10.1016/j.wasman.2015.04.035
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Indium is a critical element mainly produced as a by-product of zinc mining, and it is largely used in the production process of liquid crystal display (LCD) panels. End-of-life LCDs represent a possible source of indium in the field of urban mining. In the present paper, we apply, for the first time, cross-current leaching to mobilize indium from end-of-life LCD panels. We carried out a series of treatments to leach indium. The best leaching conditions for indium were 2M sulfuric acid at 80°C for 10min, which allowed us to completely mobilize indium. Taking into account the low content of indium in end-of-life LCDs, of about 100ppm, a single step of leaching is not cost-effective. We tested 6 steps of cross-current leaching: in the first step indium leaching was complete, whereas in the second step it was in the range of 85–90%, and with 6 steps it was about 50–55%. Indium concentration in the leachate was about 35mg/L after the first step of leaching, almost 2-fold at the second step and about 3-fold at the fifth step. Then, we hypothesized to scale up the process of cross-current leaching up to 10 steps, followed by cementation with zinc to recover indium. In this simulation, the process of indium recovery was advantageous from an economic and environmental point of view. Indeed, cross-current leaching allowed to concentrate indium, save reagents, and reduce the emission of CO2 (with 10 steps we assessed that the emission of about 90kg CO2-Eq. could be avoided) thanks to the recovery of indium. 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All rights reserved.</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c699t-2cbf8efd0f93ae282676ca47789fcaddba4c847c4f7bb74a08b9d9fdd39619a23</citedby><cites>FETCH-LOGICAL-c699t-2cbf8efd0f93ae282676ca47789fcaddba4c847c4f7bb74a08b9d9fdd39619a23</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,314,780,784,885,27922,27923</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/25997989$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink><backlink>$$Uhttps://www.osti.gov/biblio/22472536$$D View this record in Osti.gov$$Hfree_for_read</backlink></links><search><creatorcontrib>Rocchetti, Laura</creatorcontrib><creatorcontrib>Amato, Alessia</creatorcontrib><creatorcontrib>Fonti, Viviana</creatorcontrib><creatorcontrib>Ubaldini, Stefano</creatorcontrib><creatorcontrib>De Michelis, Ida</creatorcontrib><creatorcontrib>Kopacek, Bernd</creatorcontrib><creatorcontrib>Vegliò, Francesco</creatorcontrib><creatorcontrib>Beolchini, Francesca</creatorcontrib><title>Cross-current leaching of indium from end-of-life LCD panels</title><title>Waste management (Elmsford)</title><addtitle>Waste Manag</addtitle><description>[Display omitted] •End-of-life LCD panels represent a source of indium.•Several experimental conditions for indium leaching have been assessed.•Indium is completely extracted with 2M sulfuric acid at 80°C for 10min.•Cross-current leaching improves indium extraction and operating costs are lowered.•Benefits to the environment come from reduction of CO2 emissions and reagents use. Indium is a critical element mainly produced as a by-product of zinc mining, and it is largely used in the production process of liquid crystal display (LCD) panels. End-of-life LCDs represent a possible source of indium in the field of urban mining. In the present paper, we apply, for the first time, cross-current leaching to mobilize indium from end-of-life LCD panels. We carried out a series of treatments to leach indium. The best leaching conditions for indium were 2M sulfuric acid at 80°C for 10min, which allowed us to completely mobilize indium. Taking into account the low content of indium in end-of-life LCDs, of about 100ppm, a single step of leaching is not cost-effective. We tested 6 steps of cross-current leaching: in the first step indium leaching was complete, whereas in the second step it was in the range of 85–90%, and with 6 steps it was about 50–55%. Indium concentration in the leachate was about 35mg/L after the first step of leaching, almost 2-fold at the second step and about 3-fold at the fifth step. Then, we hypothesized to scale up the process of cross-current leaching up to 10 steps, followed by cementation with zinc to recover indium. In this simulation, the process of indium recovery was advantageous from an economic and environmental point of view. Indeed, cross-current leaching allowed to concentrate indium, save reagents, and reduce the emission of CO2 (with 10 steps we assessed that the emission of about 90kg CO2-Eq. could be avoided) thanks to the recovery of indium. 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Indium is a critical element mainly produced as a by-product of zinc mining, and it is largely used in the production process of liquid crystal display (LCD) panels. End-of-life LCDs represent a possible source of indium in the field of urban mining. In the present paper, we apply, for the first time, cross-current leaching to mobilize indium from end-of-life LCD panels. We carried out a series of treatments to leach indium. The best leaching conditions for indium were 2M sulfuric acid at 80°C for 10min, which allowed us to completely mobilize indium. Taking into account the low content of indium in end-of-life LCDs, of about 100ppm, a single step of leaching is not cost-effective. We tested 6 steps of cross-current leaching: in the first step indium leaching was complete, whereas in the second step it was in the range of 85–90%, and with 6 steps it was about 50–55%. Indium concentration in the leachate was about 35mg/L after the first step of leaching, almost 2-fold at the second step and about 3-fold at the fifth step. Then, we hypothesized to scale up the process of cross-current leaching up to 10 steps, followed by cementation with zinc to recover indium. In this simulation, the process of indium recovery was advantageous from an economic and environmental point of view. Indeed, cross-current leaching allowed to concentrate indium, save reagents, and reduce the emission of CO2 (with 10 steps we assessed that the emission of about 90kg CO2-Eq. could be avoided) thanks to the recovery of indium. This new strategy represents a useful approach for secondary production of indium from waste LCD panels.</abstract><cop>United States</cop><pub>Elsevier Ltd</pub><pmid>25997989</pmid><doi>10.1016/j.wasman.2015.04.035</doi><tpages>8</tpages></addata></record>
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subjects	ABUNDANCE Byproducts CARBON DIOXIDE Critical raw material Cross-current leaching Electronic Waste - analysis Emission analysis ENVIRONMENTAL PROTECTION ENVIRONMENTAL SCIENCES INDIUM Indium - chemistry LCD panel LEACHING Liquid crystal displays LIQUID CRYSTALS Liquid Crystals - chemistry MANAGEMENT OF RADIOACTIVE WASTES, AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES MATERIALS RECOVERY Mining OPERATING COST Panels Recycling - methods Refuse Disposal SOLID WASTES SULFURIC ACID Urban mining Waste Management - methods ZINC
title	Cross-current leaching of indium from end-of-life LCD panels
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