B. Stromberg et S. Banwart, Weathering kinetics of waste rock from the Aitik copper mine, Sweden: scale dependent rate factors and pH controls in large column experiments, J CONTAM HY, 39(1-2), 1999, pp. 59-89
Geochemical processes in mining waste rock, including sulphide weathering,
heavy metal release (Cu and Zn), and acidity consumption by carbonate and s
ilicate mineral weathering have been investigated. We operated six large co
lumns, each containing about 1.6 tons of waste rock, with unsaturated water
flow for nearly 3 1/2 years. The column results illustrate two pH controls
: (1) sulphide oxidation with calcite dissolution sustaining a neutral pH,
and, (2) simultaneous sulphide oxidation and weathering of primary silicate
minerals at pH 3-4. The column effluents either remained at near neutral p
H or became acidic after a lag period of between 0.5 and 3 years. For colum
ns developing acidic effluents, there was an associated mobilisation of cop
per with maximum copper concentrations as high as 500 ppm. The variable cal
cite content of the rock appears to be an important factor for controlling
the effluent pH within the columns. Extrapolating these results to the fiel
d scale, suggests that the much slower than expected copper release at the
site is due to fractions of waste rock with very low sulphide content, frac
tions with significant amounts of calcite remaining, and slower weathering
rates due to lower temperature, larger particle size and lower oxygen conte
nt. In addition, immobile water in the waste rock is expected to accumulate
weathering products rather than release them with the site drainage. (C) 1
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