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Fluid mechanics / Calculus / Hydrogeology / Total variation diminishing / Reservoir simulation / Flux limiter / Finite volume method / Crank–Nicolson method / Relative permeability / Computational fluid dynamics / Fluid dynamics / Dynamics


PROCEEDINGS, TOUGH Symposium 2006 Lawrence Berkeley National Laboratory, Berkeley, California, May 15–17, 2006 EFFICIENT SCHEMES FOR REDUCING NUMERICAL DISPERSION IN MODELING MULTIPHASE TRANSPORT THROUGH POROUS AND FRA
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Document Date: 2014-11-14 11:47:23

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New York / /

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Lawrence Berkeley National Laboratory / American Elsevier Publishing Company / Scheidegger A. E. / TOUGH Symposium 2006 Lawrence Berkeley National Laboratory / J. Comp / Forsyth2 1 2 Lawrence Berkeley National Laboratory / /

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University of Waterloo / Stanford University / /

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stable solutions / fractured media / subsurface porous-medium systems / simulation algorithms / porous and fractured media / chemical migration / computational algorithms / hydrodynamic dispersion tensor accounting / multi-continuum media / chemical plumes / matrix systems / chemical transport / realistic large-scale subsurface systems / porous media / chemical components using finite-difference / chemicals / energy / field applications / heterogeneous fractured porous media / /

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Yucca Mountain / /

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U.S. Department of Energy / Stanford University / USA School of Computer Science / Berkeley Lab / University of Waterloo / /

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Dan Hawkes / Lehua Pan / Guoxiang Zhang / Leonard Method / Curt Oldenburg / /

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model / representative / General / /

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Steam Injection / /

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Nevada / New York / California / /

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Stanford University / /

Technology

3-D / computational algorithms / simulation algorithms / heat transfer / simulation / /

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