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Numerical Modeling Of Dynamic Soil-Structure Interaction In Bridges With Hp Driven PilesBy Tu Bao
HP-Pile foundations are the most favorable type of foundations for bridges because of their constructability, versatility with regard to subsoil conditions, and settlement controllability. For many
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Numerical Modeling of Dynamic Soil-Structure Interaction in Bridges with HP Driven Piles (47ff630e-35bf-41f4-946a-236631b70ac5)By Andrew Rietz, Yu Bao, Steven Halewski
"HP-Pile foundations are the most favorable type of foundations for bridges because of their constructability, versatility with regard to subsoil conditions, and settlement controllability. For many y
Jan 1, 2017
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Numerical Modeling of Electromagnetically-Driven Turbulent Flows Using LES MethodsBy Y. Fautrelle, F. Felten, O. Metais, Y. Du Terrail
"We deal with the prediction of electromagnetically-driven turbulent flows by means of a Large-Eddy- Simulation method (LES). The model is applied in the case of a liquid metal pool submitted to a pol
Jan 1, 1999
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Numerical Modeling Of Flows In Flotation ColumnsBy PDF
Flotation columns are widely used in mineral processing and coal preparation industry today. Mathematical modeling of flotation columns has conventionally been done using axial dispersion or tank-in-s
Jan 1, 1994
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Numerical Modeling Of Foundation Deformation Due To Fault RuptureBy Amalia Giannakou
When designing structures in seismically active areas, foundations of critical structures are typically located away from known faults. Indeed many seismic codes prohibit construction in the immediate
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Numerical Modeling of Foundation Deformation Due to Fault Rupture (718b3bb2-ba73-41ae-ad4b-2a32fb89742b)By Orestis Zarzouras, Amalia Giannakou, Jacob Chacko
"When designing structures in seismically active areas, foundations of critical structures are typically located away from known faults. Indeed many seismic codes prohibit construction in the immediat
Jan 1, 2017
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Numerical Modeling of Gas Emission Rate From a Longwall Goaf in a Thick Coal SeamBy Abou Saghafi
In order to investigate the design parameters of a future longwall in a thick coal seam a numerical model of gas emission from the goaf area was developed. A Longwall goaf was modelled as a collection
Jan 1, 1996
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Numerical Modeling Of Heat Transfer Of A Smelter Ladle, With And Without A Refractory LiningBy P. Ruz
A melt transfer ladle was 3D modeled by means of a mathematical fluid dynamics and heat transfer program. Internal temperature profiles were calculated as a time function for a normal ladle and for a
Jan 1, 1999
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Numerical modeling of Hydro-Mechanical fracture behaviorBy A. Pellegrino, F. Collin, C. Guiducci, R. Charlier
A numerical approach for modeling coupled Hydro-Mechanical fracture behavior in 2D is presented in this paper. This approach accounts for the strong dependence of the flow characteristics on fracture
Jan 1, 2003
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Numerical modeling of large-scale block cave physical models using PFC2DBy R. L. McNearny, K. A. Barker
A study was conducted to compare physical and numerical models of the block-caving mining method. Results from the numerical analysis closely simulated the blocky behavior of the physical model, inclu
Jan 1, 1999
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Numerical Modeling Of Large-Scale Block Cave Physical Models Using PFC2D (c0e58485-3c95-40a0-aa3d-2ddf7d53ec9c)By R. L. McNearny
A comparison study was conducted between an actual physical model and a numerical model based on the physical model of the block cave mining method. Results from the numerical analyses closely simulat
Jan 1, 1997
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Numerical Modeling Of Longwalls In Deep Coal MinesBy Salah Badr
Longwall mine layouts with their entries, chain pillars, face support systems, advancing mining faces and compacting gobs represent a geomechanically complex mining operation. Geomechanical aspects ar
Jan 1, 2003
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Numerical Modeling of Main and Tail Gate of a Modified Long Wall Mining OperationBy M. Z. Emad, M. U. Khan
"Coal mines opting for longwall mining or its variations rely on the main and tail gates for production. Stability of these entries or crosscuts is crucial in coal mining operations. Roof or strata fa
Jan 1, 2017
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Numerical Modeling of Mining-Induced Stress and Microseismic Response using FLAC3DBy Shahé Shnorhokian
A study was conducted on the seismic activities and associated rockburst events that took place at an underground Canadian metal mine over a period of five years. In the first stage, a back analysis o
May 1, 2011
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Numerical Modeling of Oil Shale Fragmentation ExperimentsBy J S. Kuszmaul
The economic development of modified in situ oil shale retorting will benefit from the ability to design a blasting scheme that creates a rubble bed of uniform permeability. Preparing such a design de
Jan 1, 1985
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Numerical Modeling of Paste Sills in Underhand Cut & Fill StopesBy Paul Hughes
This paper describes a focus of work presently being conducted at the Rock Mechanics Research Group at the University of British Columbia. The underhand method under consolidated fill ensures a high r
Jan 1, 2006
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Numerical Modeling of Permeability of Alluminum-Copper Alloys Using 3D Microtomographic GeometryBy Ehsan Khajeh
In this study, the permeabilities of Al-15.5wt%Cu and Al-19.5wt%Cu have been determined by solving the full Navier-Stokes equations on 3D geometries of interdendritic channels obtained by X-ray microt
Jan 1, 2009
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Numerical modeling of seepage into underground openingsBy S. Finsterle, R. C. Trautz
Numerical modeling studies were performed to investigate water seepage into underground openings excavated in unsaturated fractured rock. Water seepage is an important factor affecting the performance
Jan 1, 2002
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Numerical Modeling Of Seepage Into Underground Openings (4a0cd9e7-1f24-450c-9408-9ee2fab94e55)By S. Finsterle, R. C. Trautz
We performed numerical modeling studies to investigate water seepage into underground openings excavated in unsaturated fractured rock. Water seepage is a key factor affecting the performance of a nu
Jan 1, 2000
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Numerical Modeling of Standard Rock Mechanics Laboratory Tests using a Finite/Discrete Element ApproachBy S. Stefanizzi
In the present paper, numerical simulations based on a finite/discrete element approach are used to study deformation and failure process during standard rock mechanics. FEM/DEM modeling has been used
May 1, 2009