Theory of Neutron Logging I

Tittle, C. W.

doi:10.1190/1.1438839

Cited by 42 publications

(11 citation statements)

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“…We assume that FSF perturbations due to changes in formation HI from a homogeneous background case B can be described by diffusion. Therefore, we invoke a modified one-group, timeindependent neutron diffusion model for nonmultiplying systems (Tittle, 1961) given by…”

Section: Diffusion Formulationmentioning

confidence: 99%

Fast modeling of borehole neutron porosity measurements with a new spatial transport-diffusion approximation

Ijasan

Torres‐Verdín

Preeg³

2013

GEOPHYSICS

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The quantitative integration of nuclear measurements into the in situ petrophysical and geophysical evaluation of rock formations has been elusive because of the lack of efficient algorithms to simulate them. We discovered a new method for rapid numerical simulation of borehole neutron measurements using Monte Carlo (MC)-derived spatial flux sensitivity functions (FSFs) and diffusion flux-difference (DFD) approximations. The method calculates spatial sensitivity flux perturbations using fluxdifference approximations of one-group neutron diffusion models. By invoking appropriate boundary conditions, the one-group, time-independent neutron diffusion solution is implemented for nonmultiplying systems in 2D and 3D cylindrical coordinates. The solution is differentiated with respect to the neutron cross section to obtain an expression for flux-difference due to cross-section perturbations. Constant transport-correction coefficients for cross-section parameters are calculated with a flux-fitting method to account for deviations of borehole neutron measurements from the physics of diffusion. Thereafter, spatial FSF responses are rapidly and accurately calculated using a first-order Rytov DFD approximation. Estimated flux-differences are next used to calculate lumped higher order perturbation terms. The DFD technique is tested and benchmarked against MC calculations in the presence of standoff, invasion, and well deviation for wireline and logging-whiledrilling tools. Benchmark examples and application in highly deviated wells indicate that neutron porosity logs can be accurately and efficiently simulated with the new DFD method, even in complex geometrical and physical conditions, with errors lower than 1.2 porosity units.

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Section: Diffusion Formulationmentioning

confidence: 99%

Fast modeling of borehole neutron porosity measurements with a new spatial transport-diffusion approximation

Ijasan

Torres‐Verdín

Preeg³

2013

GEOPHYSICS

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“…With the proper matrix correction, the tool is a qualitative indicator of porosity. The tool's principal assumptions and precautions are discussed in Tittle (1961) and Lynch (1962). The depth of investigation and vertical resolution is on the order of 33 cm, depending on logging speed, porosity, and type of formation.…”

Section: Formation Porositymentioning

confidence: 99%

Leg 75 Methods for Laboratory-Measured Physical Properties, Gearhart-Owen Well Logs, and the Uyeda Downhole Temperature Probe

Boyce¹

1984

Initial Reports of the Deep Sea Drilling Project

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“…{-il) almost eliminated the chemical effects seen by Tittman. In general, it appears that the method of measuring hydrogen content with a single detector and fitting to Eqs. (39) and (41) will probably be usable provided some medium-chemistry correction is made. The ratio method with four de tectors is also promising.…”

Section: --mentioning

confidence: 99%

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

Hearst¹,

Carlson²,

Rambo³

1970

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Theory of Neutron Logging I

Cited by 42 publications

References 0 publications

Fast modeling of borehole neutron porosity measurements with a new spatial transport-diffusion approximation

Fast modeling of borehole neutron porosity measurements with a new spatial transport-diffusion approximation

Leg 75 Methods for Laboratory-Measured Physical Properties, Gearhart-Owen Well Logs, and the Uyeda Downhole Temperature Probe

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

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