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Conference Proceedings

Seventh International Mining Geology Conference 2009

Conference Proceedings

Seventh International Mining Geology Conference 2009

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Resource Estimation for the Aurukun Bauxite Deposit

The resource estimation of lateritic deposits, such as Aurukun, presents specific issues related to the lateral changes in thickness and elevation of the various horizontal layers (or zones) within the deposit where the x and y dimensions are orders of magnitude greater than the z dimension. The objective was to develop a three-dimensional (3D) block model that retained the vertical and lateral variation inherent in deposits of this type to allow full optimisation of the production plan without prior selection of an economic portion (enriched bauxite layers) of the profile at the resource estimation stage._x000D_
The Aurukun bauxite deposit is held by Chalco Australia Pty Ltd (Chalco) and forms part of the world-class Weipa bauxite province, Cape York Peninsula, Queensland, Australia. The bauxite is predominantly pisolitic with an upper boehmite-rich zone and lower gibbsite-rich zone. The bauxite consists of both in situ and reworked domains, is overlain by a thin soil horizon and has kaolinite clay as a transitional base. A portable infrared mineral analyser (PIMA) was utilised on site, in addition to elemental assay, on each drill sample to determine the mineralogy, in particular levels of boehmite, gibbsite, kaolinite and reactive silica._x000D_
As part of the scope of work, a field program was undertaken using large diameter Boart Longyear sonic drilling to acquire detailed density measurements across the deposit to allow compliance with Joint Ore Reserves Committee (JORC) reporting requirements._x000D_
Interpretation of the stratigraphy was conducted on a hole by hole basis with definition of the zone layering based on stratigraphy, geochemistry and mineralogy. The zone boundaries were then modelled as 3D surfaces and used to constrain a block model._x000D_
The block model estimation used the ordinary kriging method, with the estimation done in unfolded space and then refolded, therefore maintaining the zones irrespective of thickness or orientation. The unfolding process converts the real-world positions for both blocks and informing samples to a scaled position relative to the roof and floor of each zone._x000D_
Analysis of the data and variography were also undertaken in unfolded space._x000D_
The x and y dimensions are unchanged, but the z dimension is a relative position. The effect of the unfolding and limits on number of samples per hole is to push' the informing sample search sideways but within the stratification, rather than vertically. This honours the strong vertical zonation within the bauxite profile._x000D_
The JORC Code requires that the stated resource must have reasonable prospects for economic extraction'. This is a qualitative rather than quantitative definition. A number of selection criteria to define a resource roof and floor were developed in consultation with the project engineers and owners to meet these criteria. The vertical selection of material to include in the resource highlights the variation in the development (and destruction) of the bauxite profile from area to area within the deposit._x000D_
FORMAL CITATION:Vigar, A J, Jiang, G, Morgan, M, MacDonald, G, Smith, L, Taylor, I, Recklies, M and Grobler, C, 2009. Resource estimation for the Aurukun bauxite deposit, in Proceedings Seventh International Mining Geology Conference 2009, pp 273-280 (The Australasian Institute of Mining and Metallurgy: Melbourne).
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  • Published: 2009
  • PDF Size: 8.591 Mb.
  • Unique ID: P200908035

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