Computing flow-field distortion coefficients from well-construction and formation properties
Direct measurements of groundwater velocity made with borehole flowmeters in screened wells must be compensated for the effects of flow-field distortion (also known as borehole acceleration). A theoretical equation developed by Drost et al. (1968) and simple inputs describing hydraulic properties of well construction and geologic formation were programmed into an Excel workbook to facilitate computation by groundwater-flowmeter users. Tables describing the physical and hydraulic properties for well constructions and gravel pack media are provided with an example to facilitate use of the workbook. Groundwater flowlines converge or diverge as they pass from a geologic formation, through a gravel pack and well screen. The extent of flowline convergence or divergence and the value of the flow-field distortion coefficient is related to the relative changes in hydraulic conductivity of the well screen, gravel pack, and geologic formation. Convergence or divergence is accompanied by acceleration or deceleration of groundwater. Direct measurements of groundwater velocity at the center of the monitoring well can be adjusted to provide a more accurate estimate of velocity in the formation by applying a correction for flow-field distortion. Variables required to compute the flow-field distortion coefficient include the hydraulic conductivity of the gravel pack, well screen, and the geologic formation surrounding the well screen; the borehole radius, and the inside radius and outside radius of the well screen.
Citation Information
| Publication Year | 2026 |
|---|---|
| Title | Computing flow-field distortion coefficients from well-construction and formation properties |
| DOI | 10.1111/gwat.70088 |
| Authors | E. Randall Bayless, Chad J. Ostheimer, Robert Darner |
| Publication Type | Article |
| Publication Subtype | Journal Article |
| Series Title | Groundwater |
| Index ID | 70277080 |
| Record Source | USGS Publications Warehouse |
| USGS Organization | Ohio-Kentucky-Indiana Water Science Center |