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2020 | OriginalPaper | Chapter

Leaching of Platinum Group Metals from Automobile Spent Catalyst

Authors : Sujun Lu, Dalin Chen, Peng Zhang, Guoju Chen, Yan Zhang, Yujun Pan, Ruikang Wang, Jinxi Qiao, Xintao Sun, Ailiang Chen

Published in: Characterization of Minerals, Metals, and Materials 2020

Publisher: Springer International Publishing

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Abstract

Automobile spent catalyst is leached for recovering platinum group metals using oxidizing acid leaching. Hydrogen peroxide is regarded as oxidant and hydrochloric acid as leaching reagent. The experimental results show that the best conditions are as follows: the concentration of hydrochloric acid is 6 mol/l, the liquid-solid ratio is 10:1, the reaction temperature is 9 5 °C, the volume ratio of hydrogen peroxide to raw material is 5 ml/g, and the reaction time is 2 h. Under the above conditions, the leaching ratio of platinum, palladium, and rhodium are 93.9%, 99.8%, and 86.9%, respectively. In this study, the platinum group metal is directly recovered from the automobile spent catalyst, achieving a good leaching effect. This provides a feasible method for the effective treatment of the automobile spent catalyst.

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Song W, Li G, Han X (2011) Theoretical mechanism and system explanation of lack of rare earth pricing power. Chin Ind Econ 10:46–55

Bernardis FL, Grant RA, Sherrington DC (2005) A review of methods of separation of the platinum group metals through the irchloro complexes. React Funct Polym 65(3):205–217CrossRef

Han S, Wu X, Wang H (2010) Research progress in recovery of platinum group metals from spent catalysts for automobile exhaust. Min Metall 19(2):80–83

Jo D, Lie L, Brooks D (2018) Substitution of platinum for palladium in the automotive sector—a case of ‘WHEN’, Not ‘IF’. Precious Met 39(S1):132–140

Zhang M, Ke Z (2004) Heavy metals, phosphorus and some other elements in urban soils of Hangzhou City, China. Pedo Sphere 14(2):177–185

Bao D, Cheng T (2018) Platinum group metal supply and demand and market price outlook. Precious Met 39(2):82–86

Yang H (2005). Process and technology of recovery of platinum group metals from waste carrier catalyst. Shanghai Nonferrous Met (02)

Zhao J, Cui H, Bao S (2018) Study on recovery of platinum, palladium and rhodium from waste automotive catalysts by copper trapping. Precious Met 39(1):56–59

Liu G, Huo W (2006) Study on extraction of palladium from deactivated catalysts. Compr Utilization Min 1:47–49

10.

Xiaofeng W, Wang Y, Tong W (2010) Study on new technology of extracting platinum group metal from waste automobile exhaust gas catalyst by pyrometallurgy and hydrometallurgy. Precious Met 31(4):24–31

11.

Kunming Institute of Precious Metals (2009) Method for extracting precious metal from waste automobile exhaust gas catalyst by pyrometallurgy and hydrometallurgy. China, CN, 200910094317.5, 2009-09-02

12.

De Aberasturi DJ, Pinedo R, de Larramendi IR et al (2011) Recovery by hydrometallurgical extraction of the platinum-group metals from car catalytic converters. Min Eng 24(6):505–513CrossRef

13.

Greenwood NN, Earnshaw A (1996) Chemistry of Element. In: Zengjun Wet al (Trans), vol 367. Higher Education Press, Beijing

14.

Zheng X (2007) Preparation of single palladium automobile exhaust gas purification catalyst and waste palladium recovery. Beijing University of Chemical Technology

15.

Barakat MA, Mahmoud MHH (2004) Recovery of platinum from spent catalyst. Hydrometallurgy 72:179–184CrossRef

Title: Leaching of Platinum Group Metals from Automobile Spent Catalyst
Authors: Sujun Lu
Dalin Chen
Peng Zhang
Guoju Chen
Yan Zhang
Yujun Pan
Ruikang Wang
Jinxi Qiao
Xintao Sun
Ailiang Chen
Publisher: Springer International Publishing
Book: Characterization of Minerals, Metals, and Materials 2020
Print ISBN: 978-3-030-36627-8

Electronic ISBN: 978-3-030-36628-5

Copyright Year: 2020
DOI: https://doi.org/10.1007/978-3-030-36628-5_10

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