Simulations to Verify Horizontal Flow Measurements from a Borehole Flowmeter

This paper reports on experiments and simulations of subsurface flow from a slotted acrylic tube deployed in a sand‐tank flow chamber for two different purposes. In the first instance, the slotted tube is used to represent a single fracture intersected by an uncased well. In the second instance, the...

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Bibliographic Details
Published in:Ground water 2006-05, Vol.44 (3), p.394-405
Main Authors: James, Scott C, Jepsen, Richard A., Beauheim, Richard L., Pedler, William H., Mandell, Wayne A.
Format: Article
Language:English
Subjects:
Colloids
Fresh Water
Groundwater
Models, Theoretical
Simulation
Velocity
Water flow
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Summary:This paper reports on experiments and simulations of subsurface flow from a slotted acrylic tube deployed in a sand‐tank flow chamber for two different purposes. In the first instance, the slotted tube is used to represent a single fracture intersected by an uncased well. In the second instance, the slotted tube is used to represent a multislot well screen within a porous medium. In both cases, the scanning colloidal borescope flowmeter (SCBFM) measures ground water velocity within the well by imaging colloids traveling through a well to measure their speed and direction. Measurements are compared against model simulations. For the case of a slotted tube representing a single fracture, SCBFM and model results agree with respect to the flow direction and to within a factor of 1.5 for the speed near the well’s center. Model and experimental agreement lend confidence that for an uncased well drilled in a fractured‐rock medium, a calibrated SCBFM could be used to identify and quantify flowing features. Next, the SCBFM was deployed in a four‐column multislotted casing with slots aligned with the flow direction. Another numerical model was developed to estimate the flow field within this well screen to evaluate the potential usefulness of employing the SCBFM in a screened well to estimate flow speed and direction in the surrounding porous medium. Results indicate that if the slots are not aligned with the flow, the SCBFM may only provide order‐of‐magnitude speed measurements and direction measurements with an uncertainty of approximately ±25°.
ISSN:0017-467X
1745-6584
DOI:10.1111/j.1745-6584.2005.00140.x