2005
DOI: 10.1111/j.1745-6584.2005.0032.x
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Temporal Changes in the Vertical Distribution of Flow and Chloride in Deep Wells

Abstract: The combination of flowmeter and depth-dependent water-quality data was used to evaluate the quantity and source of high-chloride water yielded from different depths to eight production wells in the Pleasant Valley area of southern California. The wells were screened from 117 to 437 m below land surface, and in most cases, flow from the aquifer into the wells was not uniformly distributed throughout the well screen. Wells having as little as 6 m of screen in the overlying upper aquifer system yielded as much a… Show more

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Cited by 24 publications
(15 citation statements)
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“…If the withdrawal (or injection) rate specified for a pumping well is insufficient to induce unidirectional flow between all well nodes and the corresponding aquifer cells, the resulting complex intraborehole flow pattern can generate a nonuniform distribution of solute concentrations in the borehole, similar to that in a nonpumping multinode well. For example, Izbicki et al (2005) collected depth‐dependent water quality samples in a well under pumping conditions and demonstrated large changes in chloride concentration with depth. Therefore, the assumption of complete mixing in a pumped borehole may not be valid, and water entering the ground water system from a node in a withdrawal well may not have the same solute concentration as water discharging through a pump at the wellhead.…”
Section: Well Concentrations and Solute Budgetsmentioning
confidence: 99%
“…If the withdrawal (or injection) rate specified for a pumping well is insufficient to induce unidirectional flow between all well nodes and the corresponding aquifer cells, the resulting complex intraborehole flow pattern can generate a nonuniform distribution of solute concentrations in the borehole, similar to that in a nonpumping multinode well. For example, Izbicki et al (2005) collected depth‐dependent water quality samples in a well under pumping conditions and demonstrated large changes in chloride concentration with depth. Therefore, the assumption of complete mixing in a pumped borehole may not be valid, and water entering the ground water system from a node in a withdrawal well may not have the same solute concentration as water discharging through a pump at the wellhead.…”
Section: Well Concentrations and Solute Budgetsmentioning
confidence: 99%
“…Elci et al (2001) summarized borehole flowmeter test results on a total of 142 wells at 16 sites in 12 states that demonstrated a measurable amount of wellbore flow in 73% of the cases. Others have identified ambient vertical flows in long‐screen wells based on observed vertical distributions in contaminant concentration and field parameters (Hutchins and Acree 2000; Izbicki et al 2005; Corcho Alvarado et al 2009; McDonald and Smith 2009). In addition to these field investigations, several modeling studies (Reilly et al 1989; Reilly and LeBlanc 1998; Elci et al 2001, 2003) have been conducted to assess the impacts of wellbore flow on measured concentrations in long‐screen wells and the redistribution of contaminants within the aquifer.…”
Section: Introductionmentioning
confidence: 99%
“…Typically, groundwater salinity increases with depth (16). Fresh groundwater resources occurring at relatively shallow depths ( 1,000 m) have been studied extensively in terms of groundwater availability (17)(18)(19)(20)(21)(22) and quality (23)(24)(25)(26). In California, water quality data from over 200,000 groundwater wells are available from the State Water Resources Control Board Groundwater Ambient Monitoring and Assessment Program (27).…”
mentioning
confidence: 99%