Linear flow behaviour of matched joints - case study on standard JRC profiles

Linear flow behaviour of matched joints - case study on standard JRC profiles

Roughness on rock joints produces a variable aperture across the joints and increases the flow path length. These conditions should be taken into account for a good approximation from cubic law. In this paper, the concept of local true aperture and tortuosity is applied to assumed joints where surfa...

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Bibliographic Details
Published in:Geomechanics and geoengineering : an international journal Vol. 11; no. 3; pp. 189 - 200
Main Authors: Zoorabadi, Mahdi, Saydam, Serkan, Timms, Wendy, Hebblewhite, Bruce
Format: Journal Article
Language:English
Published: Taylor & Francis 02-07-2016
Subjects:
Apertures
cubic law
Fluid dynamics
Fluid flow
hydraulic aperture
Hydraulic conductivity
Hydraulics
joint roughness
JRC profiles
Mathematical analysis
Rock
Roughness
Tortuosity
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Summary:Roughness on rock joints produces a variable aperture across the joints and increases the flow path length. These conditions should be taken into account for a good approximation from cubic law. In this paper, the concept of local true aperture and tortuosity is applied to assumed joints where surfaces are matched to each other and correspond with standard Joint Roughness Coefficient (JRC) profiles. Furthermore, the hydraulic behaviour of JRC profiles is studied by a new laboratory experiment setup. The analytical approach provides new insights into the effects of roughness on hydraulic properties of rock joints. The results indicate that for a constant mechanical aperture, both the minimum local aperture and hydraulic aperture decrease with increasing JRC. Furthermore, tortuosity and standard deviation of local true aperture increase with JRC increment. The trend obtained between different parameters and JRC shows an obvious fluctuation for JRC lower than 10. On one hand, the results of this study along with a critical review of previous studies demonstrate that JRC profiles cannot present a precise roughness increment when JRC is less than 10. A new laboratory setup was designed to study the flow behaviour of JRC profiles. The results obtained from laboratory experiments under linear flow conditions validate the accuracy of the applied analytical method.
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ISSN:1748-6025
1748-6033
DOI:10.1080/17486025.2016.1153728