Life Cycle Assessment of Tantalum and Niobium Recycling from Hard Metal Scrap

Aromaa, Riina; Rinne, Marja; Lundström, Mari

doi:10.1021/acssuschemeng.3c03540

ACS Sustainable Chem. Eng.

2023

DOI: 10.1021/acssuschemeng.3c03540

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Life Cycle Assessment of Tantalum and Niobium Recycling from Hard Metal Scrap

Riina Aromaa,

Marja Rinne,

Mari Lundström

Abstract: Secondary hard metal contains valuable tantalum and niobium, which could be recovered after chemical recycling of the scrap; however, the environmental impacts of their recycling have not been earlier quantified. This study provides gate-to-gate life cycle inventory data on tantalum and niobium recovery from the Ta–Nb-rich residue after the leaching of cobalt in the chemical recycling of hard metal and first assessment of the environmental impacts of tantalum and niobium coproduction. The environmental impacts… Show more

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2024

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Cited by 8 publications

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Life Cycle Assessment of Cobalt Catalyst Production and Recycling

Aromaa-Stubb,

Rinne,

Lundström

2024

J. Sustain. Metall.

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Catalysts with an active phase of cobalt are crucial for Fischer–Tropsch synthesis (FTS), yet the environmental impacts of the catalyst production and the recycling of the spent catalyst remain largely unknown. The goal of this study was to evaluate the impacts of both catalyst production as well as the recycling of spent catalyst as cobalt hydroxide, cobalt sulfate, or cobalt carbonate. Life cycle assessment (LCA) was used to quantify the environmental impacts of the studied processes. The life cycle inventory (LCI) was gathered based on the mass and energy balances of process simulations built on information available in the literature. The results show that compared to primary production of equivalent products, all studied recycling processes for spent catalyst decrease the environmental impacts by more than 50% in all investigated impact categories. For example, the global warming potential (GWP) of cobalt recovery from spent FTS catalyst as cobalt sulfate was 1.7 kg CO2-eq./kg CoSO4whereas the corresponding GWP for primary production was 4 kg CO2-eq./kg CoSO4. The process hotspots of recycling were found to be the production of the chemicals consumed, particularly sodium hydroxide and sulfuric acid, which together contributed between 64 and 95% of the total environmental impacts. LCAs on FTS have included the consumption of cobalt catalyst in the LCI using various approximations. The impacts calculated for the production of cobalt catalyst in this study were found to be markedly higher. The largest contributors included the production of materials for the precursor and support, as well as NOx emissions and consumption of nitric acid. Graphical Abstract

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Life Cycle Assessment of Cobalt Catalyst Production and Recycling

Aromaa-Stubb,

Rinne,

Lundström

2024

J. Sustain. Metall.

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Use of process simulation to obtain life cycle inventory data for LCA: A systematic review

Ferdous,

Bensebaa,

Hewage

et al. 2024

Cleaner Environmental Systems

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Tracking tantalum stocks and flows in China from 2000 to 2021: A material flow analysis

Gao,

Geng,

Gao

et al. 2024

Heliyon

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Life Cycle Assessment of Tantalum and Niobium Recycling from Hard Metal Scrap

Cited by 8 publications

References 23 publications

Life Cycle Assessment of Cobalt Catalyst Production and Recycling

Life Cycle Assessment of Cobalt Catalyst Production and Recycling

Use of process simulation to obtain life cycle inventory data for LCA: A systematic review

Tracking tantalum stocks and flows in China from 2000 to 2021: A material flow analysis

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