An investigation of aspects of mine waste from a kyanite mine,Central Virginia,USA |
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Authors: | Mark Paul Speeg Krekeler C Scott Allen Lance E Kearns J Barry Maynard |
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Institution: | (1) Geology Department, Miami University, Hamilton, OH 45011, USA;(2) Department of Environmental Science and Policy, George Mason University, Fairfax, VA 22030, USA;(3) Department of Geology and Environmental Science, James Madison University, Harrisonburg, VA 22807, USA;(4) Department of Geology, University of Cincinnati, Cincinnati, OH 45221-0013, USA |
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Abstract: | Kyanite Mining Corporation, located in Dillwyn, Virginia has been in operation for over 50 years and their local operation
is the largest kyanite mine in the world. As part of the processing at this location, a magnetic separate is generated and
a minimum estimation of 3.57 million tons of waste has accumulated. Currently no use for the magnetic separate has been identified.
We investigated eight representative samples of the magnetic mine waste which varied in color from a dark tan to black, to
determine if the waste could be recycled as an ore or could be used as an environmental media. Mineralogical investigations
indicate the composition of the magnetic mine waste is dominated by magnetite, kyanite, lesser amounts of hematite and charcoal.
Magnetite occurs as fine grained crystals and as inclusions in kyanite. Hematite occurs largely as botryoidal textures, as
discrete grains, and as coatings on kyanite grains. Fe-oxide spheres ranging in diameter from approximately 5–100 μm are common
and may compose up to 10% in some samples. Titanium dioxide was rarely observed as coatings on silicate mineral grains. Energy
dispersive spectroscopy analysis on magnetite crystals indicates they have end-member compositions. Bulk property investigations
indicate that grain size distributions of samples are primarily unimodal with 20–40% of material being between 0.600 and 0.250 mm.
Hydraulic conductivity values of samples investigated vary between 0.0036 and 0.0077 cm/s and are broadly consistent with
those expected of sands with similar grain size distributions. In addition to the magnetic waste stream a light blue, water
soluble, amorphous Cu sulfate occurs as a coating on surfaces of boulders. The coating is composed of rounded interlocking
particles 5–60 μm in diameter. This material is of some environmental concern for freshwater invertebrates, but can be managed
using sorption media. Hyperspectral data were gathered of the magnetic separate, kyanite ore samples, and the light blue Cu
sulfate. The signatures of the kyanite ore, the blue mineral coating, and a mixture of the two provide spectral fingerprints
that an imaging spectrometer could exploit for rapid detection and subsequent environmental monitoring. |
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