Non-invasive detection of fractures, fracture zones, and rock damage in a hard rock excavation — Experience from the Äspö Hard Rock Laboratory in Sweden
A key requirement for licensing of the construction of underground repositories for nuclear waste is the demonstrated capability to verify design assumptions involving the presence and extent of the excavation damage zone around tunnels, shafts, emplacement holes and caverns. As part of ongoing work...
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| Veröffentlicht in: | Engineering geology Jg. 196; S. 210 - 221 |
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| Format: | Journal Article |
| Sprache: | Englisch |
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28.09.2015
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| ISSN: | 0013-7952, 1872-6917 |
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| Abstract | A key requirement for licensing of the construction of underground repositories for nuclear waste is the demonstrated capability to verify design assumptions involving the presence and extent of the excavation damage zone around tunnels, shafts, emplacement holes and caverns. As part of ongoing work to select and refine key technologies and techniques towards this end, geophysical surveys were performed at two locations within the Äspö Hard Rock Laboratory in Sweden. Earth resistivity (RES), induced polarization (IP), and Ground Penetrating Radar (GPR) data were collected using a variety of survey parameters; Light Detection and Ranging (LiDAR) data were collected as a reference for surface structures, surface topography, and site geology. Based on an analysis of the data, models for the Highly Damaged Zone (HDZ) and Excavation Damage Zone (EDZ) at both sites were developed. The HDZ was found to be approximately 5 to 10cm in thickness, and the EDZ was found to extend between 15 and 35cm below the excavation surface. Two-dimensional (2D) RES profiling generated the most reliable assessment of the HDZ, whereas chargeability data and GPR data were more useful in the estimation of the EDZ dimensions.
•Geophysical data were collected at two sites in the Äspö Hard Rock Laboratory.•The influences of several survey parameters on resistivity results are investigated.•GPR and resistivity data are used for fracture detection and EDZ delineation.•Results are compared to borehole observations to interpret rockmass damage. |
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| AbstractList | A key requirement for licensing of the construction of underground repositories for nuclear waste is the demonstrated capability to verify design assumptions involving the presence and extent of the excavation damage zone around tunnels, shafts, emplacement holes and caverns. As part of ongoing work to select and refine key technologies and techniques towards this end, geophysical surveys were performed at two locations within the Äspö Hard Rock Laboratory in Sweden. Earth resistivity (RES), induced polarization (IP), and Ground Penetrating Radar (GPR) data were collected using a variety of survey parameters; Light Detection and Ranging (LiDAR) data were collected as a reference for surface structures, surface topography, and site geology. Based on an analysis of the data, models for the Highly Damaged Zone (HDZ) and Excavation Damage Zone (EDZ) at both sites were developed. The HDZ was found to be approximately 5 to 10cm in thickness, and the EDZ was found to extend between 15 and 35cm below the excavation surface. Two-dimensional (2D) RES profiling generated the most reliable assessment of the HDZ, whereas chargeability data and GPR data were more useful in the estimation of the EDZ dimensions.
•Geophysical data were collected at two sites in the Äspö Hard Rock Laboratory.•The influences of several survey parameters on resistivity results are investigated.•GPR and resistivity data are used for fracture detection and EDZ delineation.•Results are compared to borehole observations to interpret rockmass damage. A key requirement for licensing of the construction of underground repositories for nuclear waste is the demonstrated capability to verify design assumptions involving the presence and extent of the excavation damage zone around tunnels, shafts, emplacement holes and caverns. As part of ongoing work to select and refine key technologies and techniques towards this end, geophysical surveys were performed at two locations within the Äspö Hard Rock Laboratory in Sweden. Earth resistivity (RES), induced polarization (IP), and Ground Penetrating Radar (GPR) data were collected using a variety of survey parameters; Light Detection and Ranging (LiDAR) data were collected as a reference for surface structures, surface topography, and site geology. Based on an analysis of the data, models for the Highly Damaged Zone (HDZ) and Excavation Damage Zone (EDZ) at both sites were developed. The HDZ was found to be approximately 5 to 10cm in thickness, and the EDZ was found to extend between 15 and 35cm below the excavation surface. Two-dimensional (2D) RES profiling generated the most reliable assessment of the HDZ, whereas chargeability data and GPR data were more useful in the estimation of the EDZ dimensions. |
| Author | Diederichs, M.S. Walton, G. Lato, M. Anschütz, H. Perras, M.A. |
| Author_xml | – sequence: 1 givenname: G. orcidid: 0000-0002-9214-0021 surname: Walton fullname: Walton, G. email: gwalton@mines.edu organization: Colorado School of Mines, Golden, Colorado – sequence: 2 givenname: M. surname: Lato fullname: Lato, M. organization: RockSense GeoSolutions, Ottawa, Canada – sequence: 3 givenname: H. surname: Anschütz fullname: Anschütz, H. organization: Norwegian Geotechnical Institute, Oslo, Norway – sequence: 4 givenname: M.A. surname: Perras fullname: Perras, M.A. organization: ETH Zurich, Zurich, Switzerland – sequence: 5 givenname: M.S. surname: Diederichs fullname: Diederichs, M.S. organization: Queen's University, Kingston, Canada |
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| Title | Non-invasive detection of fractures, fracture zones, and rock damage in a hard rock excavation — Experience from the Äspö Hard Rock Laboratory in Sweden |
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