Several deep trenches were cut, and a number of geophysical surveys were conducted across the Wildcat Fault in the hills east of Berkeley, California. The Wildcat Fault is believed to be a strike-slip fault and a member of the Hayward Fault System, with over 10 km of displacement. So far, three boreholes of ∼ 150m deep have been core-drilled and borehole geophysical logs were conducted. The rocks are extensively sheared and fractured; gouges were observed at several depths and a thick cataclasitic zone was also observed. While confirming some earlier, published conclusions from shallow observations about Wildcat, some unexpected findings were encountered. Preliminary analysis indicates that Wildcat near the field site consists of multiple faults. The hydraulic test data suggest the dual properties of the hydrologic structure of the fault zone. A fourth borehole is planned to penetrate the main fault believed to lie in-between the holes. The main philosophy behind our approach for the hydrologic characterization of such a complex fractured system is to let the system take its own average and monitor a long term behavior instead of collecting a multitude of data at small length and time scales, or at a discrete fracture scale and to “up-scale,” which is extremely tenuous.
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ASME 2010 13th International Conference on Environmental Remediation and Radioactive Waste Management
October 3–7, 2010
Tsukuba, Japan
Conference Sponsors:
- Nuclear Engineering Division and Environmental Engineering Division
ISBN:
978-0-7918-5453-2
PROCEEDINGS PAPER
Development of Characterization Technology for Fault Zone Hydrology
Kenzi Karasaki,
Kenzi Karasaki
Lawrence Berkeley National Laboratory, Berkeley, CA
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Celia Tiemi Onishi,
Celia Tiemi Onishi
U.S. Geological Survey, Menlo Park, CA
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Erika Gasperikova,
Erika Gasperikova
Lawrence Berkeley National Laboratory, Berkeley, CA
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Junichi Goto,
Junichi Goto
Nuclear Waste Management Organization of Japan, Tokyo, Japan
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Hiroyuki Tsuchi,
Hiroyuki Tsuchi
Nuclear Waste Management Organization of Japan, Tokyo, Japan
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Tadashi Miwa,
Tadashi Miwa
Nuclear Waste Management Organization of Japan, Tokyo, Japan
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Keiichi Ueta,
Keiichi Ueta
Central Research Institute for Electric Power Industry, Abiko, Chiba, Japan
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Kenzo Kiho,
Kenzo Kiho
Central Research Institute for Electric Power Industry, Abiko, Chiba, Japan
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Kimio Miyakawa
Kimio Miyakawa
Central Research Institute for Electric Power Industry, Abiko, Chiba, Japan
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Kenzi Karasaki
Lawrence Berkeley National Laboratory, Berkeley, CA
Celia Tiemi Onishi
U.S. Geological Survey, Menlo Park, CA
Erika Gasperikova
Lawrence Berkeley National Laboratory, Berkeley, CA
Junichi Goto
Nuclear Waste Management Organization of Japan, Tokyo, Japan
Hiroyuki Tsuchi
Nuclear Waste Management Organization of Japan, Tokyo, Japan
Tadashi Miwa
Nuclear Waste Management Organization of Japan, Tokyo, Japan
Keiichi Ueta
Central Research Institute for Electric Power Industry, Abiko, Chiba, Japan
Kenzo Kiho
Central Research Institute for Electric Power Industry, Abiko, Chiba, Japan
Kimio Miyakawa
Central Research Institute for Electric Power Industry, Abiko, Chiba, Japan
Paper No:
ICEM2010-40121, pp. 297-303; 7 pages
Published Online:
April 5, 2011
Citation
Karasaki, K, Onishi, CT, Gasperikova, E, Goto, J, Tsuchi, H, Miwa, T, Ueta, K, Kiho, K, & Miyakawa, K. "Development of Characterization Technology for Fault Zone Hydrology." Proceedings of the ASME 2010 13th International Conference on Environmental Remediation and Radioactive Waste Management. ASME 2010 13th International Conference on Environmental Remediation and Radioactive Waste Management, Volume 2. Tsukuba, Japan. October 3–7, 2010. pp. 297-303. ASME. https://doi.org/10.1115/ICEM2010-40121
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