Publication Details

Category Text Publication
Reference Category Journals
DOI 10.1111/j.1745-6584.2007.00300.x
Title (Primary) Characterizing hydraulic conductivity with the direct-push permeameter
Author Butler jr., J.J.; Dietrich, P. ORCID logo ; Wittig, V.; Christy, T.
Source Titel Ground Water
Year 2007
Department MET
Volume 45
Issue 4
Page From 409
Page To 419
Language englisch
Abstract The direct-push permeameter (DPP) is a promising approach for obtaining high-resolution information about vertical variations in hydraulic conductivity (K) in shallow unconsolidated settings. This small-diameter tool, which consists of a short screened section with a pair of transducers inset in the tool near the screen, is pushed into the subsurface to a depth at which a K estimate is desired. A short hydraulic test is then performed by injecting water through the screen at a constant rate (less than 4 L/min) while pressure changes are monitored at the transducer locations. Hydraulic conductivity is calculated using the injection rate and the pressure changes in simple expressions based on Darcy's Law. In units of moderate or higher hydraulic conductivity (more than 1 m/d), testing at a single level can be completed within 10 to 15 min. Two major advantages of the method are its speed and the insensitivity of the K estimates to the zone of compaction created by tool advancement. The potential of the approach has been assessed at two extensively studied sites in the United States and Germany over a K range commonly faced in practical field investigations (0.02 to 500 m/d). The results of this assessment demonstrate that the DPP can provide high-resolution K estimates that are in good agreement with estimates obtained through other means.
Persistent UFZ Identifier
Butler jr., J.J., Dietrich, P., Wittig, V., Christy, T. (2007):
Characterizing hydraulic conductivity with the direct-push permeameter
Ground Water 45 (4), 409 - 419 10.1111/j.1745-6584.2007.00300.x