Loading...
Development of an Aspen model for the treatment of acid mine drainage
Author(s)
Damons, Rinaldi Eduardo
Date Issued
2001
Type
Thesis
Publisher
Cape Technikon
Abstract
Although numerous methods exist to treat mine water that is rich in CaS04 they all have inherent
disadvantages. A means of treating acid mine drainage is by forming a precipitate known as ettringite.
Ettringite is a low solubility calcium hydrosulphoaluminate that is stable between pH values of 11.4 and
124. Ettringite is made up of calcium, sulphate, aluminium and a large amount of water. The formation
of this precipitate is a result of calcium sulphate which is brought into contact with an aluminium containing
agent. Decomposition of ettringite takes place by reducing the pH to a near neutral value.
A 5 stage process is proposed to treat acid mine drainage of which the formation of ettringite forms the
cornerstone of this process. The process incorporates the formation of more than one precipitate, namely;
metal hydroxides, gypsum, CaS04 and CaCOJ. To facilitate the formation of ettringite, gibbsite is
recycled as a result of ettringite being decomposed.
The results obtained in this paper are as a result of modeling this process on an Aspen Plus simulator.
The simulation package is useful for investigating how this process behaves under non-ideal conditions
and under various sensitivities. The process and its behavioral patterns are also analyzed in order to
ascertain its economic viability.
disadvantages. A means of treating acid mine drainage is by forming a precipitate known as ettringite.
Ettringite is a low solubility calcium hydrosulphoaluminate that is stable between pH values of 11.4 and
124. Ettringite is made up of calcium, sulphate, aluminium and a large amount of water. The formation
of this precipitate is a result of calcium sulphate which is brought into contact with an aluminium containing
agent. Decomposition of ettringite takes place by reducing the pH to a near neutral value.
A 5 stage process is proposed to treat acid mine drainage of which the formation of ettringite forms the
cornerstone of this process. The process incorporates the formation of more than one precipitate, namely;
metal hydroxides, gypsum, CaS04 and CaCOJ. To facilitate the formation of ettringite, gibbsite is
recycled as a result of ettringite being decomposed.
The results obtained in this paper are as a result of modeling this process on an Aspen Plus simulator.
The simulation package is useful for investigating how this process behaves under non-ideal conditions
and under various sensitivities. The process and its behavioral patterns are also analyzed in order to
ascertain its economic viability.
Additional information
Thesis (MTech(Chemical Engineering))--Cape Technikon, Cape Town, 2001
File(s)![Thumbnail Image]()
Loading...
Name
Damons_RE_MTech_chem_eng_2001
Size
3.54 MB
Format
Adobe PDF
Checksum
(MD5):7dfa1fb3da3dc2850c96c056318a16fb