Robust system size reduction of discrete fracture networks: a multi-fidelity method that preserves transport characteristics

DOI10.1007/s10596-018-9770-4zbMath1404.86009OpenAlexW2890085904WikidataQ129251168 ScholiaQ129251168MaRDI QIDQ1629734

Gowri Srinivasan, Shriram Srinivasan, Satish Karra, Daniel O'Malley, Hari S. Viswanathan, Jeffrey D. Hyman

Publication date: 12 December 2018

Published in: Computational Geosciences (Search for Journal in Brave)

Full work available at URL: https://www.osti.gov/biblio/1477661

zbMATH Keywords

graph theory discrete fracture networks fractured porous media multi-fidelity subsurface flow and transport

Mathematics Subject Classification ID

Programming involving graphs or networks (90C35) Geostatistics (86A32) Computational methods for problems pertaining to geophysics (86-08)

Related Items (7)

A comparative study of machine learning models for predicting the state of reactive mixing ⋮ Physics-informed machine learning for backbone identification in discrete fracture networks ⋮ Mesh quality agglomeration algorithm for the virtual element method applied to discrete fracture networks ⋮ Identifying Backbones in Three-Dimensional Discrete Fracture Networks: A Bipartite Graph-Based Approach ⋮ A Probabilistic Clustering Approach for Identifying Primary Subnetworks of Discrete Fracture Networks with Quantified Uncertainty ⋮ Parallel Meshing, Discretization, and Computation of Flow in Massive Discrete Fracture Networks ⋮ Model reduction for fractured porous media: a machine learning approach for identifying main flow pathways

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