Feasibility study of artifacts on the neutron logging curve near the boundary of layers

The neutron borehole probe equipped with a neutron source and a system of neutron detectors is commonly used to determine porosity of geological formations. Transport of neutrons through media relies on their interaction with atomic nuclei, mainly with the process of scattering and absorption. Curve...

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Bibliographic Details
Published inActa geophysica Vol. 67; no. 6; pp. 1721 - 1729
Main Authors Wiącek, Urszula, Woźnicka, Urszula
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 01.12.2019
Springer Nature B.V
Subjects
Absorption
Absorption cross sections
Anomalies
Boreholes
Detectors
Earth and Environmental Science
Earth Sciences
Fast neutrons
Feasibility studies
Geology
Geophysics/Geodesy
Geotechnical Engineering & Applied Earth Sciences
Media
Neutron counters
Neutrons
Nuclei (nuclear physics)
Particle transport
Porosity
Properties (attributes)
Research Article - Special Issue
Rocks
Structural Geology
Thermal neutrons
Transport
MCNP modeling
Neutron transport parameters
Neutron artifacts
Boundary of layers
Neutron logging
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Summary:The neutron borehole probe equipped with a neutron source and a system of neutron detectors is commonly used to determine porosity of geological formations. Transport of neutrons through media relies on their interaction with atomic nuclei, mainly with the process of scattering and absorption. Curves recorded by detectors for a given geological layer bordered by a medium with other neutron properties form the so-called anomalies. The course of the anomaly mainly depends on neutron properties of the bordering media and also on the measurement geometry, borehole properties, etc. The paper focuses mainly on an influence of neutron properties of bordered rock media on the course of the anomaly curve, especially near the media boundaries. In some cases of bordering media, characterized by specific neutron properties, the course of anomalies can be significantly disturbed, forming specific artifacts. The paper explains that the presence of artifacts is closely related to the properties of bordered media for both fast and thermal neutrons, i.e., the slowing down length of fast neutrons and the absorption cross section of thermal neutrons. Artifacts can be the cause of misinterpretation of the neutron rock porosity probe measurement. All considerations presented in this paper are based on results obtained from MC calculations performed using MCNP5 code (MCNP Team in X-5 Monte Carlo Team, MCNP—a general Monte Carlo N-particle transport code version 5. Los Alamos National Laboratory LA-UR-03-1987, 2008 ).
ISSN:1895-6572
1895-7455
DOI:10.1007/s11600-019-00322-1