The Sidewall Epithermal Neutron Porosity Log

“…Neutron techniques have been used for measuring moisture in earth formations for many years (Tittman et al 1966;Ellis 1990). Some of these same techniques are suitable for measuring the moisture in high-level-waste tanks at Hanford.…”

Section: Neutron Techniques For Moisture Measurementsmentioning

confidence: 99%

“…operated by Schlumberger, a major petroleum logging service company (Tittman et al 1966). Similar tools are still available today for operating in holes of diameter greater than about 12 cm.…”

Section: Commercial Well Logging For Petroleum Industrymentioning

confidence: 99%

Moisture measurement for high-level-waste tanks using copper activation probe in cone penetrometer

Reeder¹,

Stromswold²,

Brodzinski³

et al. 1995

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“…A considerable effort has been made over the years to select and acquire very pure rock materials for response characterization of nuclear tools. 11 Neutron tools are traditionally calibrated in limestone, sandstone, and dolomite formations constructed to replicate 641 SPE 16814 the true borehole geometry. In selecting these materials, analyses were performed to determine the mineral purity, and to reveal the presence of impurity minerals and trace elements.…”

Section: Transforms For Data Analysismentioning

confidence: 99%

The Effect of Formation Absorption on the Thermal Neutron Porosity Measurement

Ellis

Flaum

Galford

et al. 1987

SPE Annual Technical Conference and Exhibition

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Compensated thermal neutron porosity devices provide reliable estimates of formation porosity in standard borehole conditions. Departure from these conditions perturb the measurement and it is necessary to apply corrections to determine the true porosity. One common perturbation is due to the salinity of the formation water.As the salinity of the formation water increases, its hydrogen density (or index) decreases. By itself, this would cause the apparent porosity reading to decrease, reflecting a lower hydrogen content. The additional chlorine, however, causes an increase in the thermal neutron capture cross section (E) that depresses the thermal neutron flux in the formation. This, in turn, tends to increase the apparent porosity. Empirical correction charts have been established for these two competing trends. They are sufficient for correcting porosity readings for salinity effects. However, the presence of additional thermal neutron absorbers associated with either the rock matrix or the pore fluid can result in a residual error on the porosity estimate even after salinity correction. This arises because the correlation between E and porosity, used to derive the salinity correction, is no longer valid.An analysis of the response of a compensated thermal neutron device has been made in terms of the slowing-down length, and diffusion length. It provides a simple method of describing salinity, absorption and lithological effects, and results in a predictive model of the tool response that separates neutron absorption effects from changes in hydrogen index. The model is shown to conform to established salinity corrections as well as to measurements made in laboratory formations with large values of E. It provides a means of correcting apparent neutron porosity values for variations in formation E not associated with salinity. 639

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The Sidewall Epithermal Neutron Porosity Log

Cited by 28 publications

References 0 publications

K-Division Experimental Work. Part I. Geophysics Research for Underground Explosion Technology.

K-Division Experimental Work. Part I. Geophysics Research for Underground Explosion Technology.

Moisture measurement for high-level-waste tanks using copper activation probe in cone penetrometer

The Effect of Formation Absorption on the Thermal Neutron Porosity Measurement

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