Geomechanics for an Underground Physics Laboratory in Alluvium

The Lawrence Livermore (LLNL) and Los Alamos (LANL) National Laboratories of the U.S. Department of Energy perform high-energy physics experiments in an underground mine, the Ula complex, at the Nevada Test Site. The mine-operating contractor is Bechtel Nevada Corporation (BN). The peculiarity of th...

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Bibliographic Details
Main Authors: Heuze, F, Rees, D, Swift, R, Zipf, K
Language:unknown
Published: 2021
Subjects:
42 ENGINEERING
58 GEOSCIENCES
CLOSURES
CONTRACTORS
CREEP
DEFORMATION
DIMENSIONS
EXTENSOMETERS
FASTENERS
METERS
MINERS
MINING
NEVADA TEST SITE
OPENINGS
PHYSICS
ROCK MECHANICS
SIMULATION
Long Rock
Ula
Online Access:http://www.osti.gov/servlets/purl/15007517
https://www.osti.gov/biblio/15007517
Description
Summary:The Lawrence Livermore (LLNL) and Los Alamos (LANL) National Laboratories of the U.S. Department of Energy perform high-energy physics experiments in an underground mine, the Ula complex, at the Nevada Test Site. The mine-operating contractor is Bechtel Nevada Corporation (BN). The peculiarity of this mine is that it is in an alluvium with an unconfined compressive strength of about 1 MPa, at a depth of 300m. So, the in-situ vertical stress is about 6 MPa. Two shafts mark the north and south boundaries of the Ula complex, the Ulh (brand new) and Ula (older) shafts respectively. Their centerlines are separated by a distance of 510 m. The east-west dimension of the complex currently is about 340 m. The drifts and chambers are horizontal and have a width up to 6.6 meters and a height up to 5.1 meters, with locally larger openings at the shaft stations. The drifts are excavated using an Alpine Miner and are taken in two steps, heading and bench, or full heading. At present, ground support is by means of 2.4 m to 5.1 m long rock bolts and wire mesh, that are covered by a 7.5 to 15-cm layer of steel-fiber reinforced shotcrete applied as a dry mix. A few years ago, some significant distress was observed in the shotcrete and the bare alluvium at several locations in the complex. In addition, significant yielding of the ground was surmised at load transfer distances of up to 60 meters. At that time, there were only a minimal number of diagnostic instruments to provide any understanding of the ground behavior. A Mining Review Board was formed in 2000, and a geomechanics program was designed and implemented to guide future expansion of the complex. The paper describes the geomechanics results and their interpretation. Several areas are discussed: (1) Strength properties of rock material; potential scale effects. (2) Rock mass deformation: multi-position extensometer and closure station time-dependent data. (3) Alluvium creep properties: considerable difference are shown in calculated time-constants between results of ...

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