Advances in Coupling Surface Flow to Subsurface Systems - Part II of II | SIAM

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2019 SIAM Conference on Mat...
Advances in Coupling Surfac...

Advances in Coupling Surface Flow to Subsurface Systems - Part II of II

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GS19 - MS15-1: Efficient Solution of Coupled Flow and Porous Media Problems by Monolithic Multigrid Methods

Presentation: Carmen Rodrigo, University of Zaragoza, Spain, 23 min 34 sec

GS19 - MS15-1: Efficient Solution of Coupled Flow and Porous Media Problems by Monolithic Multigrid Methods

Document: GS19 - MS15-1: Efficient Solution of Coupled Flow and Porous Media Problems by Monolithic Multigrid Methods

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GS19 - MS15-2: Time-accurate, Doubly-adaptive Artificial Compression Methods for Prediction of Fluid Motion

Presentation: William Layton, University of Pittsburgh, U.S., 14 min 25 sec

GS19 - MS15-2: Time-accurate, Doubly-adaptive Artificial Compression Methods for Prediction of Fluid Motion

Document: GS19 - MS15-2: Time-accurate, Doubly-adaptive Artificial Compression Methods for Prediction of Fluid Motion

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GS19 - MS15-3: A Conforming Mixed Finite Element Method for the Navier--Stokes/Darcy--Forchheimer Coupled Problem

Presentation: Sergio Caucao, University of Pittsburgh, U.S., 23 min 5 sec

GS19 - MS15-3: A Conforming Mixed Finite Element Method for the Navier--Stokes/Darcy--Forchheimer Coupled Problem

Document: GS19 - MS15-3: A Conforming Mixed Finite Element Method for the Navier--Stokes/Darcy--Forchheimer Coupled Problem

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GS19 - MS15-4: Effective Model for Crystal Precipitation and Dissolution in a Porous Medium with Perforated Solid Matrix

Presentation: Raphael Schulz, Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany, 24 min 57 sec

GS19 - MS15-4: Effective Model for Crystal Precipitation and Dissolution in a Porous Medium with Perforated Solid Matrix

Document: GS19 - MS15-4: Effective Model for Crystal Precipitation and Dissolution in a Porous Medium with Perforated Solid Matrix