An analysis of the slow compression breakage of coal using microfocus X-ray computed tomography
Date
2015Author
Viljoen, Jacob
Campbell, Quentin Peter
Le Roux, Marco
De Beer, Frikkie
Metadata
Show full item recordAbstract
The degradation of coal and the production of coal fines during handling and
transport is a serious problem in processes that depend on closely sized large
particles. To minimize the production of fines, a fundamental understanding of coal
breakage is required, so, to clarify the complex nature of coal breakage, a series of
experiments was conducted to determine the influence of the internal physical coal
structures on compression breakage characteristics. The structures investigated are
the cleat and layered structure of coal and the mineral inclusions. Samples of uniform
size and shape were prepared from a large block of South African Waterberg coal.
The samples were analyzed nondestructively using microfocus x-ray computed tomography
then wrapped in cling film and mechanically compressed while the pressure
applied was measured. The virtual three-dimensional volume tomograms of the initial
sample and the progeny were compared and the changes qualitatively analyzed.
Conclusions were drawn as to where the fatal cracks initialized and how the cracks
propagated. Particle-size distributions were done to quantify the extent of breakage
versus the breakage strength of the sample. It was found that, of all the internal structures,
the inherent crack distribution has the biggest influence on breakage and
breakage patterns of coal
URI
http://hdl.handle.net/10394/18276https://www.tandfonline.com/doi/full/10.1080/19392699.2014.907283
https://doi.org/10.1080/19392699.2014.907283
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- Faculty of Engineering [1129]