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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
Techno-Economic
Considerations in the Commercial Microwave Processing of Mineral Ores [PDF] |
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AUTHORS |
S. Bradshaw, W. Louw, C. van der Merwe, H. Reader, S. Kingman, M. Celuch and W. Kijewska 2005 40 4 228-240 |
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Abstract Microwave heating of mineral ores had previously been shown to result
in process benefits such as reduced strength and improved mineral liberation,
but the economics of the process were not attractive and no attention was
given to feasible scale up. This paper provides an overview of the
multi-disciplinary approach that has been required to address these failings
and develop the technology to pilot scale. Thermal stress simulations show
that the operation at high power densities and short residence times is the
optimal operating strategy. Experiments using high power densities (>109 W/m3 absorbing
phase) and short residence times (~ 0.1 s) were used to confirm that the
benefits can now be achieved at economically viable microwave energy inputs
(~1 kWh/t). In order to design applicators, reliable measurement of effective
microwave properties of crushed ores is required. A new method has been
developed to extract dielectric properties when the sample thickness is a
multiple of half a guide wavelength at some point in the measurement band.
Finite difference time domain modelling has been
used to design and simulate applicators. A transverse E field applicator with
a reflection compensating step has been developed, and a unit with a capacity
of > 10 tons/h is being tested. Preliminary economic analysis shows that
the overall cost of the process will be between US$ 0.16 – 0.85 per ton of
ore. |
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