A {Unified} {Workflow} for {Coupled} {Flow}-{Geomechanics} {Analysis}
Wan-Chiu Li and Anne-Laure Tertois and Margaux Raguenel and Antoine Mazuyer and Cédric Borgese and Nathan Aubourg. ( 2024 )
in: Proc. 2024 RING Meeting, pages 4, ASGA
Abstract
Conducting multi-physics studies within subsurface reservoirs is a critical endeavor in the field of geoscience and reservoir engineering. This evaluation traditionally involves a complex sequence of tasks conducted on disparate digital models and meshes. Unfortunately, this multi-step process often results in the loss of crucial geological details during conversions between different model formats, software platforms, and unwarranted simplifications introduced during meshing procedures, as well as property transfers across multiple meshes.
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BibTeX Reference
@inproceedings{li_unified_RM2024,
abstract = {Conducting multi-physics studies within subsurface reservoirs is a critical endeavor in the field of geoscience and reservoir engineering. This evaluation traditionally involves a complex sequence of tasks conducted on disparate digital models and meshes. Unfortunately, this multi-step process often results in the loss of crucial geological details during conversions between different model formats, software platforms, and unwarranted simplifications introduced during meshing procedures, as well as property transfers across multiple meshes.},
author = {Li, Wan-Chiu and Tertois, Anne-Laure and Raguenel, Margaux and Mazuyer, Antoine and Borgese, Cédric and Aubourg, Nathan},
booktitle = {Proc. 2024 RING Meeting},
language = {en},
pages = {4},
publisher = {ASGA},
title = {A {Unified} {Workflow} for {Coupled} {Flow}-{Geomechanics} {Analysis}},
year = {2024}
}