科技报告详细信息
Pre-shot simulations of far-field ground motion for the Source Physics Experiment (SPE) Explosions at the Climax Stock, Nevada National Security Site: SPE2
Mellors, R J ; Rodgers, A ; Walter, W ; Ford, S ; Xu, H ; Matzel, E ; Myers, S ; Petersson, N A ; Sjogreen, B ; Hauk, T ; Wagoner, J
关键词: AFTERSHOCKS;    AMPLITUDES;    BOREHOLES;    EXPLOSIONS;    GRANITES;    GROUND MOTION;    HYDRODYNAMICS;    SCATTERING;    SENSORS;    SIMULATION;    SOLAR PROTONS;    TNT;    TOPOGRAPHY;    TRANSVERSE ENERGY;    VELOCITY;   
DOI  :  10.2172/1034523
RP-ID  :  LLNL-TR-507132
PID  :  OSTI ID: 1034523
Others  :  TRN: US201204%%61
学科分类:地球科学(综合)
美国|英语
来源: SciTech Connect
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【 摘 要 】

The Source Physics Experiment (SPE) is planning a 1000 kg (TNT equivalent) shot (SPE2) at the Nevada National Security Site (NNSS) in a granite borehole at a depth (canister centroid) of 45 meters. This shot follows an earlier shot of 100 kg in the same borehole at a depth 60 m. Surrounding the shotpoint is an extensive array of seismic sensors arrayed in 5 radial lines extending out 2 km to the north and east and approximately 10-15 to the south and west. Prior to SPE1, simulations using a finite difference code and a 3D numerical model based on the geologic setting were conducted, which predicted higher amplitudes to the south and east in the alluvium of Yucca Flat along with significant energy on the transverse components caused by scattering within the 3D volume along with some contribution by topographic scattering. Observations from the SPE1 shot largely confirmed these predictions although the ratio of transverse energy relative to the vertical and radial components was in general larger than predicted. A new set of simulations has been conducted for the upcoming SPE2 shot. These include improvements to the velocity model based on SPE1 observations as well as new capabilities added to the simulation code. The most significant is the addition of a new source model within the finite difference code by using the predicted ground velocities from a hydrodynamic code (GEODYN) as driving condition on the boundaries of a cube embedded within WPP which provides a more sophisticated source modeling capability linked directly to source site materials (e.g. granite) and type and size of source. Two sets of SPE2 simulations are conducted, one with a GEODYN source and 3D complex media (no topography node spacing of 5 m) and one with a standard isotropic pre-defined time function (3D complex media with topography, node spacing of 5 m). Results were provided as time series at specific points corresponding to sensor locations for both translational (x,y,z) and rotational components. Estimates of spectral scaling for SPE2 are provided using a modified version of the Mueller-Murphy model. An estimate of expected aftershock probabilities were also provided, based on the methodology of Ford and Walter, [2010].

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