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Influence of Alluvial Morphology on Upscaled Hydraulic Conductivity
Author(s) -
Jha Sanjeev Kumar,
Mariethoz Gregoire,
Mathews George,
Vial John,
Kelly Bryce F.J.
Publication year - 2015
Publication title -
groundwater
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.84
H-Index - 94
eISSN - 1745-6584
pISSN - 0017-467X
DOI - 10.1111/gwat.12378
Subject(s) - hydraulic conductivity , alluvium , morphology (biology) , geology , geotechnical engineering , geomorphology , materials science , soil science , soil water , paleontology
The hydraulic conductivity of aquifers is a key parameter controlling the interactions between resource exploitation activities, such as unconventional gas production and natural groundwater systems. Furthermore, this parameter is often poorly constrained by typical data used for regional groundwater modeling and calibration studies performed as part of impact assessments. In this study, a systematic investigation is performed to understand the correspondence between the lithological descriptions of channel‐type formation and the bulk effective hydraulic conductivities at a larger scale ( Kx eff , Ky eff , and Kz eff in the direction of channel cross section, along the channel and in the vertical directions, respectively). This will inform decisions on what additional data gathering and modeling of the geological system can be performed to allow the critical bulk properties to be more accurately predicted. The systems studied are conceptualized as stacked meandering channels formed in an alluvial plain, and are represented as two facies. Such systems are often studied using very detailed numerical models. The main factors that may influence Kx eff , Ky eff , and Kz eff are the proportion of the facies representing connected channels, the aspect ratio of the channels, and the difference in hydraulic conductivity between facies. Our results show that in most cases, Kz eff is only weakly dependent on the orientations of channelized structures, with the main effects coming from channel aspect ratio and facies proportion.