Recovery of High-Purity Silver from Spent Silver Oxide Batteries by Sulfuric Acid Leaching and Electrowinning

Zulin Wang; Chao Peng; Kirsi Yliniemi; Mari Lundström

doi:10.1021/acssuschemeng.0c04701

Recovery of High-Purity Silver from Spent Silver Oxide Batteries by Sulfuric Acid Leaching and Electrowinning

Zulin Wang
, Chao Peng
, Kirsi Yliniemi
, Mari Lundström^*

^*Tämän työn vastaava kirjoittaja

Tutkimustuotos: Lehtiartikkeli › Article › Scientific › vertaisarvioitu

37 Sitaatiot (Scopus)

Abstrakti

A sustainable and effective sulfuric acid-based process with the combination of facile acid leaching and electrowinning has been developed for the recovery of valuable elements from spent silver oxide batteries. Results suggest that the dissolution of elementary Ag was markedly promoted by the presence of MnO2 in the spent silver oxide batteries. Also, H2O2 was added to support an improved Mn and Ag extraction after 240 min of leaching. In the leaching step, 97% of silver and over 99% of Mn and Zn could be extracted under the optimum conditions: 1 mol/L H2SO4, a leaching temperature of 70 °C, an S/L ratio of 50 g/L, addition of 3 v/v % H2O2 at 240 min, and a total leaching time of 270 min. Ultra-pure silver (Ag w/w % ≥ 99.98%) was further recovered from the pregnant leaching solution (PLS) by potentiostatic electrowinning. Under the optimum deposition potential of-0.10 V and after 4 h of electrowinning, the silver recovery reached 98.5% with a high energy efficiency of 98.7%. Simultaneously, 5.6% Mn was recovered on the anode in the form of MnO2. Overall, these promising results suggest feasibility in the recycling of silver oxide batteries in sulfuric acid media.

Alkuperäiskieli	Englanti
Sivut	15573-15583
Sivumäärä	11
Julkaisu	ACS Sustainable Chemistry & Engineering
Vuosikerta	8
Numero	41
DOI - pysyväislinkit	https://doi.org/10.1021/acssuschemeng.0c04701
Tila	Julkaistu - 19 lokak. 2020
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

Rahoitus

Academy of Finland projects (Z.W.: GoldTail (319691), K.Y.: NoWASTE (297962), and Business Finland project BATCircle (4853/31/2018) are greatly acknowledged for funding this research. The RawMatTERS Finland Infrastructure (RAMI) funded by Academy of Finland and based at Aalto University is also acknowledged. In addition, the financial support from Chinese Scholarship Council (CSC) is gratefully acknowledged by Zulin Wang and C.P.. The authors would like to thank Dr. Fupeng Liu for his valuable suggestion and discussion.

YK:n kestävän kehityksen tavoitteet

Tämä tuotos edistää seuraavia kestävän kehityksen tavoitteita:

SDG 7 – Edullinen ja puhdas energia

Pääsy asiakirjaan

10.1021/acssuschemeng.0c04701

Muut tiedostot ja linkit

Link to publication in Scopus

BATCIRCLE: Finland-based Circular Ecosystem of Battery Metals
Lundström, M. (Vastuullinen johtaja), Peng, C. (Projektin jäsen), Shukla, S. (Projektin jäsen), Sahlman, M. (Projektin jäsen), Helin, S. (Projektin jäsen), Zou, Y. (Projektin jäsen), Forde, G. (Projektin jäsen), Ruismäki, R. (Projektin jäsen), Wang, Z. (Projektin jäsen), Liu, F. (Projektin jäsen), Lampinen, A. (Projektin jäsen), Seisko, S. (Projektin jäsen), Revitzer, H. (Projektin jäsen), Kivinen, V. (Projektin jäsen), Chernyaev, A. (Projektin jäsen), Khalid, M. K. (Projektin jäsen), Ke, P. (Projektin jäsen), Karppinen, A. (Projektin jäsen), Hu, F. (Projektin jäsen), Porvali, A. (Projektin jäsen), Rinne, M. (Projektin jäsen), Wilson, B. (Projektin jäsen), Kalliomäki, T. (Projektin jäsen), Angerla, H. (Projektin jäsen), Palomäki, H. (Projektin jäsen), Aromaa, J. (Projektin jäsen), Aromaa-Stubb, R. (Projektin jäsen), Zhang, J. (Projektin jäsen) & Partinen, J. (Projektin jäsen)
01/01/2019 → 30/04/2021
Projekti: Business Finland: Other research funding
GoldTail: Kultapitoisten rikastushiekkojen kestävä hyödyntäminen (GoldTail)
Lundström, M. (Vastuullinen johtaja), Karppinen, A. (Projektin jäsen), Yliniemi, K. (Projektin jäsen), Sahlman, M. (Projektin jäsen), Wang, Z. (Projektin jäsen), Seisko, S. (Projektin jäsen), Halli, P. (Projektin jäsen), Revitzer, H. (Projektin jäsen), Angerla, H. (Projektin jäsen), Helin, S. (Projektin jäsen) & Wilson, B. (Projektin jäsen)
01/10/2018 → 30/09/2021
Projekti: Academy of Finland: Other research funding
NoWASTE: Uudenlainen arvometallien talteenotto sivuvirroista
Lundström, M. (Vastuullinen johtaja), Hannula, P.-M. (Projektin jäsen), Yliniemi, K. (Projektin jäsen), Revitzer, H. (Projektin jäsen), Junnila, T. (Projektin jäsen), Kinnunen, S. (Projektin jäsen), Barranco Asensio, V. (Projektin jäsen), Karppinen, A. (Projektin jäsen), Wang, Z. (Projektin jäsen), Wilson, B. (Projektin jäsen) & Halli, P. (Projektin jäsen)
01/09/2016 → 31/12/2020
Projekti: Academy of Finland: Other research funding

Raaka-aineiden tutkimusinfrastruktuuri
Karppinen, M. (Manager)
Kemian tekniikan korkeakoulu
Laitteistot/tilat: Facility

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title = "Recovery of High-Purity Silver from Spent Silver Oxide Batteries by Sulfuric Acid Leaching and Electrowinning",

abstract = "A sustainable and effective sulfuric acid-based process with the combination of facile acid leaching and electrowinning has been developed for the recovery of valuable elements from spent silver oxide batteries. Results suggest that the dissolution of elementary Ag was markedly promoted by the presence of MnO2 in the spent silver oxide batteries. Also, H2O2 was added to support an improved Mn and Ag extraction after 240 min of leaching. In the leaching step, 97\% of silver and over 99\% of Mn and Zn could be extracted under the optimum conditions: 1 mol/L H2SO4, a leaching temperature of 70 °C, an S/L ratio of 50 g/L, addition of 3 v/v \% H2O2 at 240 min, and a total leaching time of 270 min. Ultra-pure silver (Ag w/w \% ≥ 99.98\%) was further recovered from the pregnant leaching solution (PLS) by potentiostatic electrowinning. Under the optimum deposition potential of-0.10 V and after 4 h of electrowinning, the silver recovery reached 98.5\% with a high energy efficiency of 98.7\%. Simultaneously, 5.6\% Mn was recovered on the anode in the form of MnO2. Overall, these promising results suggest feasibility in the recycling of silver oxide batteries in sulfuric acid media.",

keywords = "battery waste, recycling, precious metal, hydrometallurgy, electrodeposition, ZINC, ELECTRODEPOSITION, MANGANESE, CARBON, MECHANISM, MERCURY, FILM, TEMPERATURE, CONCENTRATE, SOLUBILITY",

author = "Zulin Wang and Chao Peng and Kirsi Yliniemi and Mari Lundstr{\"o}m",

year = "2020",

month = oct,

day = "19",

doi = "10.1021/acssuschemeng.0c04701",

language = "English",

volume = "8",

pages = "15573--15583",

journal = "ACS Sustainable Chemistry \& Engineering",

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publisher = "American Chemical Society",

number = "41",

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TY - JOUR

T1 - Recovery of High-Purity Silver from Spent Silver Oxide Batteries by Sulfuric Acid Leaching and Electrowinning

AU - Wang, Zulin

AU - Peng, Chao

AU - Yliniemi, Kirsi

AU - Lundström, Mari

PY - 2020/10/19

Y1 - 2020/10/19

N2 - A sustainable and effective sulfuric acid-based process with the combination of facile acid leaching and electrowinning has been developed for the recovery of valuable elements from spent silver oxide batteries. Results suggest that the dissolution of elementary Ag was markedly promoted by the presence of MnO2 in the spent silver oxide batteries. Also, H2O2 was added to support an improved Mn and Ag extraction after 240 min of leaching. In the leaching step, 97% of silver and over 99% of Mn and Zn could be extracted under the optimum conditions: 1 mol/L H2SO4, a leaching temperature of 70 °C, an S/L ratio of 50 g/L, addition of 3 v/v % H2O2 at 240 min, and a total leaching time of 270 min. Ultra-pure silver (Ag w/w % ≥ 99.98%) was further recovered from the pregnant leaching solution (PLS) by potentiostatic electrowinning. Under the optimum deposition potential of-0.10 V and after 4 h of electrowinning, the silver recovery reached 98.5% with a high energy efficiency of 98.7%. Simultaneously, 5.6% Mn was recovered on the anode in the form of MnO2. Overall, these promising results suggest feasibility in the recycling of silver oxide batteries in sulfuric acid media.

AB - A sustainable and effective sulfuric acid-based process with the combination of facile acid leaching and electrowinning has been developed for the recovery of valuable elements from spent silver oxide batteries. Results suggest that the dissolution of elementary Ag was markedly promoted by the presence of MnO2 in the spent silver oxide batteries. Also, H2O2 was added to support an improved Mn and Ag extraction after 240 min of leaching. In the leaching step, 97% of silver and over 99% of Mn and Zn could be extracted under the optimum conditions: 1 mol/L H2SO4, a leaching temperature of 70 °C, an S/L ratio of 50 g/L, addition of 3 v/v % H2O2 at 240 min, and a total leaching time of 270 min. Ultra-pure silver (Ag w/w % ≥ 99.98%) was further recovered from the pregnant leaching solution (PLS) by potentiostatic electrowinning. Under the optimum deposition potential of-0.10 V and after 4 h of electrowinning, the silver recovery reached 98.5% with a high energy efficiency of 98.7%. Simultaneously, 5.6% Mn was recovered on the anode in the form of MnO2. Overall, these promising results suggest feasibility in the recycling of silver oxide batteries in sulfuric acid media.

KW - battery waste

KW - recycling

KW - precious metal

KW - hydrometallurgy

KW - electrodeposition

KW - ZINC

KW - ELECTRODEPOSITION

KW - MANGANESE

KW - CARBON

KW - MECHANISM

KW - MERCURY

KW - FILM

KW - TEMPERATURE

KW - CONCENTRATE

KW - SOLUBILITY

UR - https://www.scopus.com/pages/publications/85096304985

U2 - 10.1021/acssuschemeng.0c04701

DO - 10.1021/acssuschemeng.0c04701

M3 - Article

SN - 2168-0485

VL - 8

SP - 15573

EP - 15583

JO - ACS Sustainable Chemistry & Engineering

JF - ACS Sustainable Chemistry & Engineering

IS - 41

ER -

Recovery of High-Purity Silver from Spent Silver Oxide Batteries by Sulfuric Acid Leaching and Electrowinning

Abstrakti

Rahoitus

YK:n kestävän kehityksen tavoitteet

Pääsy asiakirjaan

Muut tiedostot ja linkit

Sormenjälki

Projektit

BATCIRCLE: Finland-based Circular Ecosystem of Battery Metals

GoldTail: Kultapitoisten rikastushiekkojen kestävä hyödyntäminen (GoldTail)

NoWASTE: Uudenlainen arvometallien talteenotto sivuvirroista

Laitteet

Raaka-aineiden tutkimusinfrastruktuuri

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