Jiafei Yi scite author profile

Tellurium is the indispensable base material of semiconductors in solar panels. Traditional tellurium recycling, a highly complicated separation process, has exhausted reagents and energy sources whilst producing waste residue and water containing multitudinous heavy metal that is hugely harmful to the ecological environment. A clean and eco-friendly vacuum distillation-directional condensation treatment was investigated for its potential to recycle tellurium from tellurium-rich lead anode slime (TLAS). The optimal distillation temperature and response time conditions of 1173 K and 50 min were obtained based on a large number of experiments. Gasification results indicated that under the optimal conditions of distillation temperature 1173 K, constant temperature time 50 min, and system pressure 5–15 Pa, 92% of tellurium was volatilized and enriched into the condenser from TLAS. Condensate results revealed that 88% of elemental tellurium was directly recovered in the volatile matter. The appropriate gasification-condensation processes realized a clean utilization to extract tellurium and separate multi valuable metals effectively.

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Extraction of scattered and precious metals from lead anode slime: A short review

Gao

Kong

Yang

et al. 2023

Hydrometallurgy

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Jiafei Yi

Separation behavior of As, Zn and Cd trace impurities in the deep vacuum purification process of refined lead

An innovative green process for separating and enriching tellurium from lead anode slime via vacuum gasification

Effective separation and recovery of valuable metals from high value-added lead anode slime by sustainable vacuum distillation

Vacuum Gasification-Directional Condensation for Separation of Tellurium from Lead Anode Slime

Extraction of scattered and precious metals from lead anode slime: A short review

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