Anisotropic meshing for {CO2} storage simulation: case study.
in: 2022 {RING} {Meeting}, pages 7, ASGA
Abstract
The development of CO2 capture and storage projects is a major challenge coming in the next few years. To tackle this challenge, the 3D modeling and monitoring of the physical phenomena occurring during CO2 injection are a key step. The desire to represent several phenomena (flows, thermal effects, geomechanical effects) on the same model calls for the use of a unique mesh as a support for the physical simulations. A fully tetrahedral mesh appears as a good solution, as a lot of work has been done to handle such meshes and to adapt them to different constraints.
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BibTeX Reference
@inproceedings{raguenel_anisotropic_2022,
abstract = { The development of CO2 capture and storage projects is a major challenge coming in the next few years. To tackle this challenge, the 3D modeling and monitoring of the physical phenomena occurring during CO2 injection are a key step. The desire to represent several phenomena (flows, thermal effects, geomechanical effects) on the same model calls for the use of a unique mesh as a support for the physical simulations. A fully tetrahedral mesh appears as a good solution, as a lot of work has been done to handle such meshes and to adapt them to different constraints. },
author = { Raguenel, Margaux AND Mazuyer, Antoine AND Hamon, François AND Pellerin, Jeanne },
booktitle = { 2022 {RING} {Meeting} },
pages = { 7 },
publisher = { ASGA },
title = { Anisotropic meshing for {CO2} storage simulation: case study. },
year = { 2022 }
}