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Separation and purification of metals from printed circuit board of spent computers using solvent extraction.

Full text
Author(s):
Monica Maria Jimenez Correa
Total Authors: 1
Document type: Master's Dissertation
Press: São Paulo.
Institution: Universidade de São Paulo (USP). Escola Politécnica (EP/BC)
Defense date:
Examining board members:
Denise Crocce Romano Espinosa; Kellie Provazi de Souza; Jorge Alberto Soares Tenório
Advisor: Denise Crocce Romano Espinosa
Abstract

Over the years, the solid waste generation problem has been gaining strength in an environmental context. Currently, several technologies on the field of waste treatment are been studied aiming to reduce the volume of produced waste and gain additional economic value. Discarded printed circuit boards (PCBs) are classified as solid waste and in it composition, sometimes, they hold greater quantities of metal than ores. The present research studied the separation of non-ferrous metals from two types of printed circuit boards from discarded computers (motherboards and video boards) aiming its recovery. The overall process used physical treatment and hydrometallurgical treatment. The physical processing started with griding the PCBs using a knife mill and a hammer mill. Quartered samples from the grinded material were utilized on the hydrometallurgical process. Samples obtained after quartering were called samples from route l. The remained milled material was magnetically separated generating non-magnetic samples, called: samples from route ll, also followed by hydrometallurgical treatment. After, present materials on the PCBs and its respective samples were characterized (samples from route l and samples from route ll). Leaching those materials was the first step of the hydrometallurgical step. Leaching parameters time, temperature and acid concentration were evaluated. The resulting liquor from leaching samples from route ll followed to the solvent extraction (SSX) phase, in which metals were screened and purified. On the extraction phase there were utilized the acid extractants: Cyanex 272, D2EHPA, TBP and its mixtures. Experiments varying extraction parameters as organic/aqueous (O/A), temperature and extractant concentration were carried out during this phase. Finally, the number of theoretical stages of extraction were determined to purify the liquor obtained by leaching samples from route ll. The results showed that the mother PCBs are constituted by 35.8% of metals; 38.4% of polymers and 25.9% of ceramic, while the video PCBs are composed by 35.8% of metals, 33% polymer and 31.2% of ceramic. In the leaching step was possible to recover 100% of the copper contained in the route II samples (non-magnetic fraction of the video boards and motherboards). The solvent extraction step can separate aluminum and zinc from the liquor produced in leaching process of the Route II samples (non-magnetic fraction of the video board and motherboard). Aluminum and zinc extraction used 10% v/v of D2EHPA, room temperature, reaction time 10 min and pH 3.5. Moreover, copper was removed using 20% v/v of D2EHPA, room temperature, reaction time of 10 min and pH 3.5. Finally it was found that this procedure allows recovering 82% of the copper contained in the motherboard and 60% of the copper video board. (AU)

FAPESP's process: 12/20350-3 - Separation and purification of metals from printed circuit board of discarded computers using solvent extraction
Grantee:Monica Maria Jimenez Correa
Support Opportunities: Scholarships in Brazil - Master