Joe S. Depner scite author profile

Abstract. Wells in coastal aquifers can attenuate and delay aquifer hydraulic head fluctuations induced by ocean tides. To infer how the attenuation/delay depend on system dimensions and hydraulic properties, I solved a boundary value problem in which a well with storage fully penetrates a confined, coastal aquifer. The well-induced attenuation and delay are (1) maximum at the well and decrease to zero at the aquifer's horizontal periphery; (2) generally increasing functions of well radius, distance from seaward boundary, and tidal frequency; (3) decreasing functions of transmissivity; and (4) nearly independent of storativity for lesser radii and generally decreasing functions of storativity for greater radii. Approximations were developed for (1) a point in the aquifer, valid when the distance from the point to the well greatly exceeds the well radius, and (2) at the well, valid when the distance from the well to the seaward boundary greatly exceeds the radius. Hsieh et al. [1987] investigated the problem of estimating aquifer properties using observations of well response to the solid Earth tide (SET). Ritzi et al.[1991] examined the problem of estimating aquifer properties using observations of the combined well response to SET and atmospheric pressure variation (APV). Although both the SET and the OT are caused by periodic variations in tidal potential and hence occur at the same frequencies, they influence an aquifer through different mechanisms and thus lead to different hydraulic responses. In the case of SET, an aquifer responds to periodic variations in tidal potential by harmonically dilating/contracting. In a homogeneous and isotropic, horizontally infinite, confined aquifer where wells are absent the hydraulic response to this dilatation is a harmonic pressure head disturbance that is horizontally uniform. Hsieh et al. [1987] found that in the presence of a finite-diameter well the hydraulic response of such an aquifer to SET is azimuthally symmetric.In contrast, the OT is viewed as a forcing that occurs at or near the aquifer's seaward boundary. If the aquifer outcrops at the seaward boundary, so that it is in direct hydraulic communication with the ocean, then the forcing is hydraulic. If the aquifer extends under the ocean, so that the OT produces variations in loading, then the forcing is mechanical. In either case, the hydraulic response of the aquifer to the OT is a pressure head wave that is attenuated as it propagates landward. Owing to the presence of the seaward boundary, the hydraulic response is expected to be azimuthally asymmetric regardless of whether or not a well is present.Townley [1995] presents solutions to a number of boundary value problems involving periodic flow of groundwater in homogeneous, confined aquifers of finite length. All of the problems considered by Townley are either one-dimensional or two-dimensional and azimuthally symmetric.The objective of this analysis is to infer the effects of a fully penetrating finite-storage well on the periodic OT-induced head fluct...

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D: Complex Variables

Depner¹,

Rasmussen²

2016

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Mechanical Energy of Groundwater

Depner¹,

Rasmussen²

2016

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Joe S. Depner

Effect of Ultrasonication on the Solidification Microstructure in Al and Mg-Alloys

Hydrodynamics of Time‐Periodic Groundwater Flow

Ocean tide‐induced head fluctuations in wells

D: Complex Variables

Mechanical Energy of Groundwater

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