Difference between revisions of "EMI Conference"

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This mini-symposium invites contributions on the state-of-the-art in modeling of faults, fault zone processes, and seismic hazards. Of particular interest are novel formulations and numerical methods for describing the impact of faults in both natural settings and within engineered systems. Relevant processes include dynamic rupture, quasi-static slip, seismic wave propagation, fluid flow within fault zones, induced seismicity, thermal and geochemical effects, and others. We seek contributions covering a broad range of applications, including seismic hazard assessment, geophysical monitoring of the subsurface, geologic carbon storage, geothermal systems, waste-fluid disposal, and hydrocarbon production. Submissions describing engineering aspects of ground motion are also welcome. The mini-symposium will provide a cross-cutting forum to describe both scientific and computational challenges to modeling faults and their impact on the natural and engineered environment.  
 
This mini-symposium invites contributions on the state-of-the-art in modeling of faults, fault zone processes, and seismic hazards. Of particular interest are novel formulations and numerical methods for describing the impact of faults in both natural settings and within engineered systems. Relevant processes include dynamic rupture, quasi-static slip, seismic wave propagation, fluid flow within fault zones, induced seismicity, thermal and geochemical effects, and others. We seek contributions covering a broad range of applications, including seismic hazard assessment, geophysical monitoring of the subsurface, geologic carbon storage, geothermal systems, waste-fluid disposal, and hydrocarbon production. Submissions describing engineering aspects of ground motion are also welcome. The mini-symposium will provide a cross-cutting forum to describe both scientific and computational challenges to modeling faults and their impact on the natural and engineered environment.  
  
== SCEC Session Abstract (Maechling et al)  ==
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== SCEC Presentation (Maechling et al) ==
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*[http://hypocenter.usc.edu/research/EMI/Maechling_EMI_18June2015_v5.pdf Maechling Presentation (35Mb pdf)]
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*[http://hypocenter.usc.edu/research/EMI/Maechling_EMI_18June2015_v4.pptx Maechling Presentation (35Mb pptx)]
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== SCEC Session Abstract ==
 
*[http://hypocenter.usc.edu/research/EMI/GroundMotion_v2_SC.docx SCEC Abstract (submittted)] (Word Format *.docx)
 
*[http://hypocenter.usc.edu/research/EMI/GroundMotion_v2_SC.docx SCEC Abstract (submittted)] (Word Format *.docx)
  

Latest revision as of 16:23, 19 June 2015

Engineering Mechanics Institute Conference 2015

Conference Web Site

Minisymposium Session Description

MS 86: Computational Methods for Faults, Fault Leakage, and Seismic Hazards

Eric Dunham, Stanford University, USA Ting Lin, Marquette University, USA Joshua White*, Lawrence Livermore National Laboratory, USA

This mini-symposium invites contributions on the state-of-the-art in modeling of faults, fault zone processes, and seismic hazards. Of particular interest are novel formulations and numerical methods for describing the impact of faults in both natural settings and within engineered systems. Relevant processes include dynamic rupture, quasi-static slip, seismic wave propagation, fluid flow within fault zones, induced seismicity, thermal and geochemical effects, and others. We seek contributions covering a broad range of applications, including seismic hazard assessment, geophysical monitoring of the subsurface, geologic carbon storage, geothermal systems, waste-fluid disposal, and hydrocarbon production. Submissions describing engineering aspects of ground motion are also welcome. The mini-symposium will provide a cross-cutting forum to describe both scientific and computational challenges to modeling faults and their impact on the natural and engineered environment.

SCEC Presentation (Maechling et al)

SCEC Session Abstract

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