Sustainability assessment of the recovery and utilisation of acid from acid mine drainage

Acid mine drainage (AMD) presents serious threats to the environment due to its toxic constituents. Traditional wastewater treatment methods such as neutralization, precipitation, membrane processes, ion exchange and biological sulphate removal, etc., have been applied to remediate AMD and reduce it...

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Bibliographic Details
Published in:Journal of cleaner production 2016-02, Vol.113, p.17-27
Main Authors: Nleya, Yvonne, Simate, Geoffrey S., Ndlovu, Sehliselo
Format: Article
Language:English
Subjects:
Acid mine drainage
Constituents
Crystallization
Economic conditions
Environmental effect
Recovery
Sulfuric acid
Sulphuric acid
Toxic
Toxicology
Wastewater treatment
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Summary:Acid mine drainage (AMD) presents serious threats to the environment due to its toxic constituents. Traditional wastewater treatment methods such as neutralization, precipitation, membrane processes, ion exchange and biological sulphate removal, etc., have been applied to remediate AMD and reduce its negative impact on the receiving environment. However, the challenge with most of these methods is that the constituents of AMD have not been viewed as valuable resources. The constituents, though toxic can be recovered and transformed into valuable materials which could be marketed. Amongst the various AMD constituents, is sulphuric acid which has an appreciable market in the chemical and metallurgical industry. The acid value could be recovered from AMD and used to meet the demands of various sulphuric acid consumers. The financial benefits obtained could then be used to offset the overall AMD treatment cost. Hence, this paper reviews some of the techniques used to recover sulphuric acid from various wastewater solutions. The techniques reviewed include: rectification, membrane separation, solvent extraction, crystallization and acid retardation. The technical and economic feasibility of each process for application to AMD is also evaluated. Subsequently, the acid retardation and crystallization technologies are recommended as the most promising technologies for acid recovery from AMD. Recovery and utilisation of acid from acid mine drainage. [Display omitted] •Acid mine drainage (AMD) presents dire environmental impact.•AMD contains valuable sulphuric acid which could be recovered.•Conventional methods can be used to recover the acid from AMD.•Freeze crystallization and acid retardation processes are the most promising techniques for acid recovery.•Base metal industry is the main potential consumer of the recovered acid.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2015.11.005