Exploring for oil with nuclear physics

Exploring for oil with nuclear physics

Oil↓eld service companies help identify and assess reserves and future production for oil and gas reservoirs, by providing petrophysical information on rock formations. Some parameters of interest are the fraction of pore space in the rock, the quantity of oil or gas contained in the pores, the lith...

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Main Authors: Mauborgne Marie-Laure, Allioli Françoise, Stoller Chris, Evans Mike, Manclossi Mauro, Nicoletti Luisa
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201714609009
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spelling doaj-b3c364bceb7a469a919046bea118e8bf2021-08-02T14:42:34ZengEDP SciencesEPJ Web of Conferences2100-014X2017-01-011460900910.1051/epjconf/201714609009epjconf-nd2016_09009Exploring for oil with nuclear physicsMauborgne Marie-Laure0Allioli Françoise1Stoller Chris2Evans Mike3Manclossi Mauro4Nicoletti Luisa5Schlumberger Riboud Product CenterSchlumberger Riboud Product CenterSclumberger Houston Formation Evaluation Integration CenterSclumberger Houston Formation Evaluation Integration CenterSchlumberger Riboud Product CenterSchlumberger Riboud Product CenterOil↓eld service companies help identify and assess reserves and future production for oil and gas reservoirs, by providing petrophysical information on rock formations. Some parameters of interest are the fraction of pore space in the rock, the quantity of oil or gas contained in the pores, the lithology or composition of the rock matrix, and the ease with which 'uids 'ow through the rock, i.e. its permeability. Downhole logging tools acquire various measurements based on electromagnetic, acoustic, magnetic resonance and nuclear physics to determine properties of the subsurface formation surrounding the wellbore. This introduction to nuclear measurements applied in the oil and gas industry reviews the most advanced nuclear measurements currently in use, including capture and inelastic gamma ray spectroscopy, neutron-gamma density, thermal neutron capture cross section, natural gamma ray, gamma-gamma density, and neutron porosity. A brief description of the technical challenges associated with deploying nuclear technology in the extreme environmental conditions of an oil well is also presented.https://doi.org/10.1051/epjconf/201714609009
collection DOAJ
language English
format Article
sources DOAJ
author Mauborgne Marie-Laure
Allioli Françoise
Stoller Chris
Evans Mike
Manclossi Mauro
Nicoletti Luisa
spellingShingle Mauborgne Marie-Laure
Allioli Françoise
Stoller Chris
Evans Mike
Manclossi Mauro
Nicoletti Luisa
Exploring for oil with nuclear physics
EPJ Web of Conferences
author_facet Mauborgne Marie-Laure
Allioli Françoise
Stoller Chris
Evans Mike
Manclossi Mauro
Nicoletti Luisa
author_sort Mauborgne Marie-Laure
title Exploring for oil with nuclear physics
title_short Exploring for oil with nuclear physics
title_full Exploring for oil with nuclear physics
title_fullStr Exploring for oil with nuclear physics
title_full_unstemmed Exploring for oil with nuclear physics
title_sort exploring for oil with nuclear physics
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2017-01-01
description Oil↓eld service companies help identify and assess reserves and future production for oil and gas reservoirs, by providing petrophysical information on rock formations. Some parameters of interest are the fraction of pore space in the rock, the quantity of oil or gas contained in the pores, the lithology or composition of the rock matrix, and the ease with which 'uids 'ow through the rock, i.e. its permeability. Downhole logging tools acquire various measurements based on electromagnetic, acoustic, magnetic resonance and nuclear physics to determine properties of the subsurface formation surrounding the wellbore. This introduction to nuclear measurements applied in the oil and gas industry reviews the most advanced nuclear measurements currently in use, including capture and inelastic gamma ray spectroscopy, neutron-gamma density, thermal neutron capture cross section, natural gamma ray, gamma-gamma density, and neutron porosity. A brief description of the technical challenges associated with deploying nuclear technology in the extreme environmental conditions of an oil well is also presented.
url https://doi.org/10.1051/epjconf/201714609009
work_keys_str_mv AT mauborgnemarielaure exploringforoilwithnuclearphysics
AT alliolifrancoise exploringforoilwithnuclearphysics
AT stollerchris exploringforoilwithnuclearphysics
AT evansmike exploringforoilwithnuclearphysics
AT manclossimauro exploringforoilwithnuclearphysics
AT nicolettiluisa exploringforoilwithnuclearphysics
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