Conventional Horizontal

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Spectral Gamma

XRF analysis directly measures the elemental concentrations of potassium(K), uranium(U), and thorium(Th) in a given rock sample. These amounts are then converted to a synthetic total gamma (XRF GR). Wireline and MWD tools measure natural gamma rays from a volume of rock in-situ, then back calculate how much K, U and Th are present. By comparing the results of down hole readings with XRF gamma, the cuttings or core can be depth shifted to their correct locations of origin. In horizontal wells, the XRF can provide a spectral gamma from drill cuttings to compliment MWD, and potentially identify if a downhole gamma tool has malfunctioned.

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Mineralogy

Most geoscientists and engineers that we work with are not familiar with elemental data. The use is generally limited to stratigraphic correlation. However, there is a significant body of data that, if converted to more familiar and more pertinent forms, provide a wealth of information. Reservoir properties are generally a function of the mineralogy and fabric of the rock, not simply the elemental composition. Determination of the mineralogy from the elemental data provides the user with a much more powerful tool. We employ the principles of mineralogy phase theory to construct normative mineral algorithms. Qtz/Zr is used as a proxy for chert or quartz cement. Individual points on the chart are XRD reference data.

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Clay Mineralogy

XRF clay mineralogy shows changes in clay composition. There is a very good match between XRF total clay and MWD gamma. This horizontal does not show any characteristics of a “cold shale” or “hot sand” as seen in the core.

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Particle Size Distribution

Mineralogy and trace element chemistry are used to model particle size distribution (PSD). Sands with more heavy minerals are finer grained. PSD shows changes in grain size within quartz rich sands and can help to identify sand on sand contacts. This data is useful for customizing liner slot sizes.

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Grain Size

Grain size can be estimated as a function the particle size distribution by binning the PSD data. Sands with a higher Qtz/Zr ratio (chert) are coarser grained.

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Reservoir Properties

The most important factors for proper evaluation of the target reservoir are gathered into one log suite. The key factors selected for this log suite are detrital framework components, total clay, total carbonate, mechanical properties, porosity, permeability, Qtz/Zr and TOC. These are displayed along with MWD gamma and gas data. XRF porosity shows a strong correlation with MWD gas. Mineralogy, mechanical properties and permeability are key in frac planning.