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Title: Radionuclide gas transport through nuclear explosion-generated fracture networks

Abstract

Underground nuclear weapon testing produces radionuclide gases which may seep to the surface. Barometric pumping of gas through explosion-fractured rock is investigated using a new sequentially-coupled hydrodynamic rock damage/gas transport model. Fracture networks are produced for two rock types (granite and tuff) and three depths of burial. The fracture networks are integrated into a flow and transport numerical model driven by surface pressure signals of differing amplitude and variability. There are major differences between predictions using a realistic fracture network and prior results that used a simplified geometry. Matrix porosity and maximum fracture aperture have the greatest impact on gas breakthrough time and window of opportunity for detection, with different effects between granite and tuff simulations highlighting the importance of accurately simulating the fracture network. In particular, maximum fracture aperture has an opposite effect on tuff and granite, due to different damage patterns and their effect on the barometric pumping process. From stochastic simulations using randomly generated hydrogeologic parameters, normalized detection curves are presented to show differences in optimal sampling time for granite and tuff simulations. As a result, seasonal and location-based effects on breakthrough, which occur due to differences in barometric forcing, are stronger where the barometric signal ismore » highly variable.« less

Authors:
 [1];  [2];  [2];  [2];  [2]
+ Show Author Affiliations
  1. Los Alamos National Lab. (LANL), Los Alamos, NM (United States); Neptune and Company, Los Alamos, NM (United States)
  2. Los Alamos National Lab. (LANL), Los Alamos, NM (United States)
Publication Date:
Research Org.:
Los Alamos National Laboratory (LANL), Los Alamos, NM (United States)
Sponsoring Org.:
USDOE; Defense Threat Reduction Agency (DTRA)
OSTI Identifier:
1259301
Alternate Identifier(s):
OSTI ID: 1321760
Report Number(s):
LA-UR-15-24015
Journal ID: ISSN 2045-2322; srep18383
Grant/Contract Number:  
DTRA1-11-4539I/BRCALL08-Per5-I-2-0008; AC52-06NA25396
Resource Type:
Accepted Manuscript
Journal Name:
Scientific Reports
Additional Journal Information:
Journal Volume: 5; Journal ID: ISSN 2045-2322
Publisher:
Nature Publishing Group
Country of Publication:
United States
Language:
English
Subject:
98 NUCLEAR DISARMAMENT, SAFEGUARDS, AND PHYSICAL PROTECTION; environmental sciences; geophysics; hydrology; 73 NUCLEAR PHYSICS AND RADIATION PHYSICS

Citation Formats

Jordan, Amy B., Stauffer, Philip H., Knight, Earl E., Rougier, Esteban, and Anderson, Dale N. Radionuclide gas transport through nuclear explosion-generated fracture networks. United States: N. p., 2015. Web. doi:10.1038/srep18383.
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Jordan, Amy B., Stauffer, Philip H., Knight, Earl E., Rougier, Esteban, & Anderson, Dale N. Radionuclide gas transport through nuclear explosion-generated fracture networks. United States. https://doi.org/10.1038/srep18383
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Jordan, Amy B., Stauffer, Philip H., Knight, Earl E., Rougier, Esteban, and Anderson, Dale N. Thu . "Radionuclide gas transport through nuclear explosion-generated fracture networks". United States. https://doi.org/10.1038/srep18383. https://www.osti.gov/servlets/purl/1259301.
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@article{osti_1259301,
title = {Radionuclide gas transport through nuclear explosion-generated fracture networks},
author = {Jordan, Amy B. and Stauffer, Philip H. and Knight, Earl E. and Rougier, Esteban and Anderson, Dale N.},
abstractNote = {Underground nuclear weapon testing produces radionuclide gases which may seep to the surface. Barometric pumping of gas through explosion-fractured rock is investigated using a new sequentially-coupled hydrodynamic rock damage/gas transport model. Fracture networks are produced for two rock types (granite and tuff) and three depths of burial. The fracture networks are integrated into a flow and transport numerical model driven by surface pressure signals of differing amplitude and variability. There are major differences between predictions using a realistic fracture network and prior results that used a simplified geometry. Matrix porosity and maximum fracture aperture have the greatest impact on gas breakthrough time and window of opportunity for detection, with different effects between granite and tuff simulations highlighting the importance of accurately simulating the fracture network. In particular, maximum fracture aperture has an opposite effect on tuff and granite, due to different damage patterns and their effect on the barometric pumping process. From stochastic simulations using randomly generated hydrogeologic parameters, normalized detection curves are presented to show differences in optimal sampling time for granite and tuff simulations. As a result, seasonal and location-based effects on breakthrough, which occur due to differences in barometric forcing, are stronger where the barometric signal is highly variable.},
doi = {10.1038/srep18383},
journal = {Scientific Reports},
number = ,
volume = 5,
place = {United States},
year = {Thu Dec 17 00:00:00 EST 2015},
month = {Thu Dec 17 00:00:00 EST 2015}
}
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https://doi.org/10.1038/srep18383
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    Works referencing / citing this record:

    Flow-through compression cell for small-angle and ultra-small-angle neutron scattering measurements
    journal, May 2018

    • Hjelm, Rex P.; Taylor, Mark A.; Frash, Luke P.
    • Review of Scientific Instruments, Vol. 89, Issue 5
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    Identification of dominant gas transport frequencies during barometric pumping of fractured rock
    journal, July 2019

    Identification of dominant gas transport frequencies during barometric pumping of fractured rock
    journal, July 2019

    Surrogate Models for Estimating Failure in Brittle and Quasi-Brittle Materials
    journal, July 2019

    • Mudunuru, Maruti Kumar; Panda, Nishant; Karra, Satish
    • Applied Sciences, Vol. 9, Issue 13
    • DOI: 10.3390/app9132706

    Delayed signatures of underground nuclear explosions
    journal, March 2016

    • Carrigan, Charles R.; Sun, Yunwei; Hunter, Steven L.
    • Scientific Reports, Vol. 6, Issue 1
    • DOI: 10.1038/srep23032

    Upscaled discrete fracture matrix model (UDFM): an octree-refined continuum representation of fractured porous media
    journal, December 2019

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