Federica Forte scite author profile

A process was developed for the recovery of rare earths from terbium-rich lamp phosphor waste. The process consists of a solvometallurgical leaching step with concentrated methanesulphonic acid (MSA) at temperatures between 433 K to 473 K, followed by solvent extraction with the acidic extractant di-(2-ethylhexyl)phosphoric acid (D2EHPA). Preliminary tests were performed on a synthetic lamp phosphor (LaPO 4 :Ce 3+ ,Tb 3+ , LAP). The optimised conditions were afterwards applied to a real lamp phosphor waste residue, that was obtained after removal of yttrium and europium from lamp phosphor waste powder by a hydrometallurgical process. The leaching can be carried out at lower temperatures than digestion in concentrated sulphuric acid or fused alkali. The process takes advantage of the much higher solubility of the rare-earth methanesulphonates compared to the corresponding sulphates, so that solvent extraction can be performed directly on the leachate after dilution, without the need of several additional steps to convert the rare-earth sulphates into chlorides or nitrates.

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The influence of temperature on the decomposition kinetics of peracetic acid in solutions

Kunigk

Gomes

Forte

et al. 2001

Braz. J. Chem. Eng.

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Peracetic acid is a powerful sanitizer that has only recently been introduced in the Brazilian food industry. The main disadvantage of this sanitizer is its decomposition rate. The main purpose of this paper is to present results obtained in experiments carried out to study the decomposition kinetics of peracetic acid in aqueous solutions at 25, 35, 40 and 45 °C. The decompositon of peracetic acid is a first-order reaction. The decomposition rate constants are between 1.71x10-3 h -1 for 25 °C and 9.64x10-3 h-1 for 45 °C. The decomposition rate constant is affected by temperature according to the Arrhenius equation, and the activation energy for the decomposition of peracetic acid in aqueous solutions prepared from the commercial formulation used in this work is 66.20 kJ/mol

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Lithium iron phosphate batteries recycling: An assessment of current status

Forte

Pietrantonio

Pucciarmati

et al. 2020

Critical Reviews in Environmental Science and Technology

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Mass balance and life cycle assessment of the waste electrical and electronic equipment management system implemented in Lombardia Region (Italy)

Biganzoli

Falbo

Forte

et al. 2015

Science of The Total Environment

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Materials recovery from waste liquid crystal displays: A focus on indium

et al. 2015

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Aluminium Mass Balance in Waste Incineration and Recovery Potential From the Bottom Ash: A Case Study

Biganzoli

Grosso

Forte

2013

Waste Biomass Valor

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Dissolution of noble metals in highly concentrated acidic salt solutions

2020

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Enhancing rare-earth recovery from lamp phosphor waste

et al. 2019

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Federica Forte

Recovery of rare earths from the green lamp phosphor LaPO₄:Ce³⁺,Tb³⁺ (LAP) by dissolution in concentrated methanesulphonic acid

The influence of temperature on the decomposition kinetics of peracetic acid in solutions

Lithium iron phosphate batteries recycling: An assessment of current status

Mass balance and life cycle assessment of the waste electrical and electronic equipment management system implemented in Lombardia Region (Italy)

Materials recovery from waste liquid crystal displays: A focus on indium

Aluminium Mass Balance in Waste Incineration and Recovery Potential From the Bottom Ash: A Case Study

Dissolution of noble metals in highly concentrated acidic salt solutions

Enhancing rare-earth recovery from lamp phosphor waste

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Federica Forte

Recovery of rare earths from the green lamp phosphor LaPO4:Ce3+,Tb3+ (LAP) by dissolution in concentrated methanesulphonic acid

The influence of temperature on the decomposition kinetics of peracetic acid in solutions

Lithium iron phosphate batteries recycling: An assessment of current status

Mass balance and life cycle assessment of the waste electrical and electronic equipment management system implemented in Lombardia Region (Italy)

Materials recovery from waste liquid crystal displays: A focus on indium

Aluminium Mass Balance in Waste Incineration and Recovery Potential From the Bottom Ash: A Case Study

Dissolution of noble metals in highly concentrated acidic salt solutions

Enhancing rare-earth recovery from lamp phosphor waste

Contact Info

Product

Resources

About

Recovery of rare earths from the green lamp phosphor LaPO₄:Ce³⁺,Tb³⁺ (LAP) by dissolution in concentrated methanesulphonic acid