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AuthorEid, Hisham T.
Available date2024-06-09T07:52:59Z
Publication Date2007
Publication NameActa Geotechnica
ResourceScopus
Identifierhttp://dx.doi.org/10.1007/s11440-007-0029-9
ISSN1861-1125
URIhttp://hdl.handle.net/10576/55922
AbstractExtensive field and laboratory testing programs were performed to develop a relationship between the permeability of a fractured limestone and the core recovery values. The studied limestone does not encompass any jointing system but is consistently and randomly fractured. Nineteen in situ falling head permeability tests were carried out to measure permeability of the fractured rock mass at a representative study area. Analysis of test results has led to the formulation of an empirical equation that estimates the permeability of the rock mass in terms of its solid core recovery value and the permeability of the fractures filling material. Unlike the existing equations for estimating the permeability of rock masses, the proposed equation is simple and utilizes parameters that can be easily determined in regular geotechnical field and laboratory investigations. A technique is also presented to estimate the permeability of a rock layer, the quality of which significantly changes with depth, using the proposed equation that utilizes a single value of core recovery. Analysis of well-documented pumping test results supported the validity of the proposed equation and technique.
SponsorAcknowledgments The work described in this paper forms part of an applied research project funded by Qatar University. Support from the University in form of research resources is gratefully acknowledged. The author also acknowledges Omar M. Alansari, Abdelrah-man A. Hamad, and Mahmoud A. Alarouqi of Qatar University for their help during the field and laboratory investigation.
Languageen
PublisherSpringer Verlag
SubjectCore recovery; Dewatering; Fractured rock; Limestone; Permeability; Random fractures; Rock masses
TitleA technique for estimating permeability of a randomly fractured rock mass
TypeArticle
Pagination97-102
Issue Number2
Volume Number2
dc.accessType Abstract Only


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