Pyrite oxidation kinetics in an oxygen–nitrogen atmosphere at temperatures from 400 to 500°C

A. Aracena; O. Jerez; R. Ortiz; J. Morales

doi:10.1080/00084433.2015.1126904

Pyrite oxidation kinetics in an oxygen–nitrogen atmosphere at temperatures from 400 to 500°C

A. Aracena, O. Jerez, R. Ortiz, J. Morales

SCHOOL OF CHEMICAL ENGINEERING

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6 Scopus citations

Abstract

This study analyses pyrite (FeS₂) roasting in a temperature range of 400–500°C, with partial oxygen pressure from 1·01 to 28·60 kPa and particle size between 12·3 and 33·0 μm, using thermogravimetric methods. The pyrite oxidation rate was significantly influenced by temperature, partial oxygen pressure and particle size. Pyrite oxidation kinetics was also analysed, and the model X=kt gave a good description of the reaction kinetics. The dependency of pyrite oxidation on partial oxygen pressure was in the order of 3/5. The intrinsic oxidation rate constants were also determined and an activation energy value of 60·5 kJ mol⁻¹ was obtained for the temperature range used in the study. The results indicate that the rate of pyrite oxidation was controlled by chemical reactions under the conditions of the experiments.

Original language	English
Pages (from-to)	195-201
Number of pages	7
Journal	Canadian Metallurgical Quarterly
Volume	55
Issue number	2
DOIs	https://doi.org/10.1080/00084433.2015.1126904
State	Published - 2 Apr 2016

Keywords

Intrinsic kinetics
Oxidation rate
Pyrite roasting

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10.1080/00084433.2015.1126904

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title = "Pyrite oxidation kinetics in an oxygen–nitrogen atmosphere at temperatures from 400 to 500°C",

abstract = "This study analyses pyrite (FeS2) roasting in a temperature range of 400–500°C, with partial oxygen pressure from 1·01 to 28·60 kPa and particle size between 12·3 and 33·0 μm, using thermogravimetric methods. The pyrite oxidation rate was significantly influenced by temperature, partial oxygen pressure and particle size. Pyrite oxidation kinetics was also analysed, and the model X=kt gave a good description of the reaction kinetics. The dependency of pyrite oxidation on partial oxygen pressure was in the order of 3/5. The intrinsic oxidation rate constants were also determined and an activation energy value of 60·5 kJ mol−1 was obtained for the temperature range used in the study. The results indicate that the rate of pyrite oxidation was controlled by chemical reactions under the conditions of the experiments.",

keywords = "Intrinsic kinetics, Oxidation rate, Pyrite roasting",

author = "A. Aracena and O. Jerez and R. Ortiz and J. Morales",

note = "Publisher Copyright: {\textcopyright} 2016 Canadian Institute of Mining, Metallurgy and Petroleum.",

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TY - JOUR

T1 - Pyrite oxidation kinetics in an oxygen–nitrogen atmosphere at temperatures from 400 to 500°C

AU - Aracena, A.

AU - Jerez, O.

AU - Ortiz, R.

AU - Morales, J.

PY - 2016/4/2

Y1 - 2016/4/2

N2 - This study analyses pyrite (FeS2) roasting in a temperature range of 400–500°C, with partial oxygen pressure from 1·01 to 28·60 kPa and particle size between 12·3 and 33·0 μm, using thermogravimetric methods. The pyrite oxidation rate was significantly influenced by temperature, partial oxygen pressure and particle size. Pyrite oxidation kinetics was also analysed, and the model X=kt gave a good description of the reaction kinetics. The dependency of pyrite oxidation on partial oxygen pressure was in the order of 3/5. The intrinsic oxidation rate constants were also determined and an activation energy value of 60·5 kJ mol−1 was obtained for the temperature range used in the study. The results indicate that the rate of pyrite oxidation was controlled by chemical reactions under the conditions of the experiments.

AB - This study analyses pyrite (FeS2) roasting in a temperature range of 400–500°C, with partial oxygen pressure from 1·01 to 28·60 kPa and particle size between 12·3 and 33·0 μm, using thermogravimetric methods. The pyrite oxidation rate was significantly influenced by temperature, partial oxygen pressure and particle size. Pyrite oxidation kinetics was also analysed, and the model X=kt gave a good description of the reaction kinetics. The dependency of pyrite oxidation on partial oxygen pressure was in the order of 3/5. The intrinsic oxidation rate constants were also determined and an activation energy value of 60·5 kJ mol−1 was obtained for the temperature range used in the study. The results indicate that the rate of pyrite oxidation was controlled by chemical reactions under the conditions of the experiments.

KW - Intrinsic kinetics

KW - Oxidation rate

KW - Pyrite roasting

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DO - 10.1080/00084433.2015.1126904

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JO - Canadian Metallurgical Quarterly

JF - Canadian Metallurgical Quarterly

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ER -

Pyrite oxidation kinetics in an oxygen–nitrogen atmosphere at temperatures from 400 to 500°C

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Keywords

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