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Role of Research in Non-ferrous Metallurgy Development—Peter Hayes’ Contributions to Modern Pyrometallurgy Read chapter Read first chapter

2018 | OriginalPaper | Chapter

Kinetics of Roasting of a Sphalerite Concentrate

Authors : Omid Marzoughi, Mohammad Halali, Davood Moradkhani, Christopher A. Pickles

Published in: Extraction 2018

Publisher: Springer International Publishing

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Abstract

In this research, both the kinetics and the mechanisms of the roasting of a sphalerite concentrate from the Bafgh mining complex in Iran were investigated. The oxidation process was performed in a muffle furnace in air and the effects of time and temperature on the degree of oxidation of the zinc sulfide sample were quantitatively studied. The experimental data were fitted to the shrinking core model. In the temperature range of 650–800 °C, the rate-controlling step was the chemical reaction between the zinc sulfide and oxygen with an activation energy of 103 kJ mol−1. On the other hand, in the temperature range of 850–950 °C, the rate-controlling step was oxygen diffusion with an activation energy of 50 kJ mol−1. Also, the roasting process was studied using thermogravimetric (TGA) and derivative thermogravimetric (DTGA) techniques.

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Literature
1.
Kropschot SJ, Doebrich JL (2011) Zinc-the key to preventing corrosion (No. 2011–3016). US Geological Survey
2.
3.
Boyanov B, Peltekov A, Petkova V (2014) Thermal behavior of zinc sulfide concentrates with different iron content at oxidative roasting. Thermochim Acta 586:9–16CrossRef
4.
Fukunaka Y, Monta T, Asaki Z, Kondo Y (1976) Oxidation of zinc sulfide in a fluidized bed. Metall Trans B 7:307–314CrossRef
5.
Dimitrov R, Boyanev I (1986) Mechanism of zinc sulfide oxidation. Thermochim Acta 106:9–25CrossRef
6.
Natesan K, Philbrook WO (1970) Oxidation kinetic studies of zinc sulfide in a fluidized bed. Met Trans (1):1353
7.
Kimura S, Takagi Y, Tone S, Otake T (1983) Kinetic study of oxidation of pelleted zinc sulfide powder having grain size distribution. J Chem Eng Jpn 16(3):217–223CrossRef
8.
Takamura T, Yoshida K, Kunii D (1974) Kinetic study of oxidation of zinc sulfide pellets. J Chem Eng Jpn 7:276–280CrossRef
9.
Queiroz C, Carvalho R, Moura F (2005) Oxidation of zinc sulfide concentrate in a fluidised bed reactor-part 2: the influence of experimental variables on the kinetics. Braz J Chem Eng 22:127–133CrossRef
10.
Boyanov B, Peltekov A (2013) Study of zinc sulfide concentrates by DTA, TGA, and X-Ray analyses and their roasting in fluidized bed furnace. ISRN Ind Eng 2013
11.
Małecki S, Jarosz P (2014) thermogravimetric analysis of the zinc concentrates oxidation containing various iron compounds. Arch Metall Mater 59:941–945CrossRef
12.
Kim B, Jeong S, Kim Y, Kim H (2010) Oxidative roasting of low grade zinc sulfide concentrates from Gagok mine in Korea. Mat Tran 51(8):1481–1485CrossRef
13.
Živković Ž, Živković D, Grujičić D, Štrbac N, Savović V (1998) Kinetics and mechanism of the natural mineral marmatite oxidation process. J Therm Anal Calorim 54(1):35–40CrossRef
14.
Levenspiel O (2006) Chemical reaction engineering, 3rd edn. Wiley India Pvt. Ltd.
15.
Vignes A (2011) Extractive metallurgy 1. Wiley India Pvt. Ltd.
16.
Coats AW, Redfern JP (1964) Kinetic parameters from thermogravimetric data. Nature 201:68–69CrossRef
17.
Brown M, Maciejewski M, Vyazovkin S, Nomen R, Sempere J, Burnham A (2000) Computational aspects of kinetic analysis: part A: the ICTAC kinetics project-data, methods and results. Thermochim Acta 355:125–143CrossRef
18.
Khawam A, Flanagan DR (2006) Solid-state kinetic models: basics and mathematical fundamentals. J Phys Chem B 110(35):17315–17328CrossRef
Metadata
Title
Kinetics of Roasting of a Sphalerite Concentrate
Authors
Omid Marzoughi
Mohammad Halali
Davood Moradkhani
Christopher A. Pickles
Copyright Year
2018
Book
Extraction 2018

Print ISBN: 978-3-319-95021-1

Electronic ISBN: 978-3-319-95022-8

Copyright Year: 2018

DOI
https://doi.org/10.1007/978-3-319-95022-8_44

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