Advances and Gaps in the Knowledge of Thermodynamics and Crystallography of Acid Mine Drainage Sulfate Minerals

Authors

  • Juraj Majzlan

DOI:

https://doi.org/10.2533/chimia.2010.699

Keywords:

Acid mine drainage

Abstract

Acidic and metal-rich waters produced by sulfide decomposition at mining sites are termed acid mine drainage (AMD). They precipitate a number of minerals, very often sulfates. The recent advances in thermodynamic properties and crystallography of these sulfates are reviewed here. There is a reasonable amount of data for the divalent (Mg, Ni, Co, Fe2+, Cu, Zn) sulfates and these data may be combined with and optimized by temperature-relative humidity brackets available in the literature. For the sulfates with Fe3+, most data exist for jarosite; for other minerals and phases in this system, a few calorimetric studies were reported. No data whatsoever are available for the Fe2+-Fe3+ sulfates. A significant advance is the development of the Pitzer model for Fe3+-sulfate solutions and its confrontation with the available thermodynamic and solubility data. In summary, our knowledge about the thermodynamic properties of the AMD sulfates is unsatisfactory and fragmented.
CHIMIA Vol. 64 No. 10 (2010): Mineralogy

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Published

2010-10-29

Issue

Vol. 64 No. 10 (2010): Mineralogy

Section

Scientific Articles

License

Copyright (c) 2010 Swiss Chemical Society

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

[1]
J. Majzlan, Chimia 2010, 64, 699, DOI: 10.2533/chimia.2010.699.