KAT Exploration Inc (KATX)

[ShortonCash]

drill core measured grades acquired by Vale Inco

Recently, thanks to computer and geophysical tool improvements, seismic tomography became very attractive for many application fields. Indeed, this non-intrusive technique allows inferring the mechanical properties of the ground using travel times and amplitude analysis of the transmitted wavelet between two boreholes, hence provide additional information on the nature of the deposit. Commonly used crosshole seismic velocity tomography algorithms estimate 2D slowness models (inverse of velocity) in the plane between the boreholes using the measured direct wave travel times from the transmitter (located in one of the hole) to the receivers (located in the other hole). Furthermore, geophysical borehole logging can be used to constrain seismic tomography between drill holes. Finally, this project aims to estimate grade of economically worth mineral by integrating seismic tomography data with respectively drill core measured grades acquired by Vale Inco for one of their mine sites in operation.

http://adsabs.harvard.edu/abs/2010EGUGA..1213289P

This approach provides much better fit to observed data than obtained from classical inversion, including cokriging, and enables the identification of stable and well-defined features present in most retained realizations. A sequential Gaussian algorithm, in a Bayesian framework, has been useful to integrating known grades and petrophysical properties to produce many grades realizations of nickel, copper and cobalt. The method used to estimate grades is based on the determination of an in situ relationship between physical properties, measured by geophysics (i.e. P waves velocity) and grades measured on drill cores of the studied area. This relationship is then applied to the seismic tomography to "update" a prior probability given by grades measured in drill core. Moreover, the stochastic framework of this method allows to produce many realizations of the grades between boreholes, which can be analysed to quantify the variability of the estimations. The results obtained from the stochastic tomography improve considerably the understanding of the geological framework of the ground between boreholes. However, the commonly used algorithm like LSQR give a useless result. Lastly, the Bayesian approach has shown realistic results for the nickel, copper and cobalt estimations.
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