The channelisation of flows through fractured geological systems can critically impact processes like groundwater contamination, geothermal energy extraction, hydrogen storage, and carbon sequestration. Despite its importance, characterising flow channelisation and development of predictive models remains challenging due to complex interactions across multiple scales. This paper discusses new opportunities to characterise flow channelisation in fractured media across scales. Flow channelisation primarily occurs at two scales, within a single fracture, and across an interconnected network. At the single fracture scale, the detailed control and reproducibility of additive manufacturing (three-dimensional printing) provides a breakthrough opportunity to validate direct numerical simulations of flow and reactive transport. At the network scale, graph-based machine learning algorithms designed to naturally account for the complex connectivity that occurs in fractured media may provide a revolutionary advancement in computational science.
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9 July 2026
Research Article|
February 27 2026
New opportunities for characterising flow channelisation in fractured media across scales
J. D. Hyman;
*Earth and Environmental Sciences Division,
Los Alamos National Laboratory
, Los Alamos, USA
; Geology and Geological Engineering, Colorado School of Mines, Golden, USACorresponding author J. D. Hyman (jhyman@lanl.gov).
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P. Purswani;
P. Purswani
†Earth and Environmental Sciences Division,
Los Alamos National Laboratory
, Los Alamos, USA
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A. Pachalieva;
A. Pachalieva
†Earth and Environmental Sciences Division,
Los Alamos National Laboratory
, Los Alamos, USA
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I. E. Mellas;
I. E. Mellas
‡Institute of Environmental Assessment and Water Research (IDAEA),
Spanish National Research Council (CSIC)
, Barcelona, Spain
.
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T. Aquino;
T. Aquino
‡Institute of Environmental Assessment and Water Research (IDAEA),
Spanish National Research Council (CSIC)
, Barcelona, Spain
.
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D. O’Malley;
D. O’Malley
†Earth and Environmental Sciences Division,
Los Alamos National Laboratory
, Los Alamos, USA
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A. Sitchler-Navarre;
A. Sitchler-Navarre
†Earth and Environmental Sciences Division,
Los Alamos National Laboratory
, Los Alamos, USA
§Geology and Geological Engineering,
Colorado School of Mines
, Golden, USA
.
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M. R. Sweeney;
M. R. Sweeney
†Earth and Environmental Sciences Division,
Los Alamos National Laboratory
, Los Alamos, USA
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H. S. Viswanathan
H. S. Viswanathan
†Earth and Environmental Sciences Division,
Los Alamos National Laboratory
, Los Alamos, USA
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Corresponding author J. D. Hyman (jhyman@lanl.gov).
Publisher: Emerald Publishing
Received:
August 28 2025
Accepted:
December 30 2025
Online ISSN: 2045-2543
© 2026 Emerald Publishing Limited
2026
Emerald Publishing Limited
Licensed re-use rights only
Geotechnique Letters (2026) 16 (2): 196–202.
Article history
Received:
August 28 2025
Accepted:
December 30 2025
Citation
Hyman JD, Purswani P, Pachalieva A, Mellas IE, Aquino T, O’Malley D, Sitchler-Navarre A, Sweeney MR, Viswanathan HS (2026), "New opportunities for characterising flow channelisation in fractured media across scales". Geotechnique Letters, Vol. 16 No. 2 pp. 196–202, doi: https://doi.org/10.1680/jgele.25.00092
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