P. C. Schillig scite author profile

The point velocity probe (PVP) is an instrument capable of measuring ground water velocity in situ at the centimeter scale. It is based on detecting an electrically conductive tracer transported by ground water around the perimeter of the cylindrical probe. PVPs are easily constructed from inexpensive materials and can be deployed as a single sensor or in multilevel arrays. A multilevel array of these instruments, consisting of four PVPs stacked vertically on each of five stands, was installed as a fence within a sheet‐pile alleyway at the Canadian Forces Base Borden test site in Ontario, Canada. The data from the fence revealed notable velocity variations both spatially and temporally. Ground water velocity data of these kinds are likely to be valuable for permeable reactive barrier design and assessment, regulatory compliance assessments, and a variety of research level investigations concerned with local flow phenomena.

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Applications and implications of direct groundwater velocity measurement at the centimetre scale

Devlin

Schillig

Bowen

et al. 2012

Journal of Contaminant Hydrology

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Transient Heterogeneity in an Aquifer Undergoing Bioremediation of Hydrocarbons

Schillig

Devlin²,

Roberts

et al. 2011

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Localized, transient heterogeneity was studied in a sand aquifer undergoing benzene, toluene, ethylbenzene, and xylene bioremediation using a novel array of multilevel, in situ point velocity probes (PVPs). The experiment was conducted within a sheet-pile alleyway to maintain a constant average flow direction through time. The PVPs measured changes in groundwater velocity direction and magnitude at the centimeter scale, making them ideal to monitor small-scale changes in hydraulic conductivity (K). Velocities were shown to vary nonuniformly by up to a factor of 3 when a source of oxygen was established down-gradient of the petroleum spill. In spite of these local variations, the average groundwater velocity within the 7 m × 20 m sheet-piled test area only varied within ± 25%. The nonuniform nature of the velocity variations across the gate indicated that the changes were not due solely to seasonal hydraulic gradient fluctuations. At the conclusion of the experiment, microbial biomass levels in the aquifer sediments was approximately 1 order of magnitude higher in the oxygen-amended portion of the aquifer than at the edge of the plume or in locations up-gradient of the source. These data suggest that the transient velocities resulted, at least in part, from enhanced biological activity that caused transient heterogeneities in the porous medium.

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VelProbePE: An automated spreadsheet program for interpreting point velocity probe breakthrough curves

Schillig¹

2012

Computers & Geosciences

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P. C. Schillig

Stimulating in situ denitrification in an aerobic, highly permeable municipal drinking water aquifer

An Inexpensive Multilevel Array of Sensors for Direct Ground Water Velocity Measurement

Applications and implications of direct groundwater velocity measurement at the centimetre scale

Transient Heterogeneity in an Aquifer Undergoing Bioremediation of Hydrocarbons

VelProbePE: An automated spreadsheet program for interpreting point velocity probe breakthrough curves

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