NDLI: Analysis of radial movement of a confined aquifer due to well pumping and injection

Content Provider	Springer Nature Link
Author	Li, Jiang
Copyright Year	2006
Abstract	Three aspects of radial motion of an aquifer solid matrix, driven by hydraulic forces due to well recharge and discharge, have been investigated mathematically. Firstly, the analytic solutions in the velocity and displacement fields were found using the definition of bulk mass flow, conservation of water and solid mass, the Darcy-Gersevanov law, and the drawdown of hydraulic head for unsteady flow. Secondly, the radial velocity and displacement of aquifer solid matrix were investigated with respect to time and location in response to three pumping-injection schemes (i.e., linear, nonlinear, and sinusoidal well flow rates). Aquifer movement was found to be more responsive to linear and nonlinear pumping rates than to constant pumpage. Aquifer movement in response to periodic well discharge and recharge was governed by an integral sinusoidal function. Finally, the potential risk of earth fissuring at a given location caused by tensile stress, in turn induced by well discharge-recharge activity, has been discussed using the analytic solution. The deformation compression and extension zones derived from analysis of the results indicated the possible occurrence of tensile stress that may cause earth fissures. Sample computations, using assumed parameters, provided a first-hand evaluation of the location of potential fissuring in relation to the well.Trois aspects de l’écoulement radial dans un aquifère à matrice solide, du à l’infiltration ou au pompage dans des puits, ont été étudiés mathématiquement. Premièrement, les solutions analytiques des champs de vitesse et de déplacement ont été trouvées suivant la définition de l’écoulement de masse, l’équation de la conservation de la masse, la loi de Darcy-Gersevanov, et le rabattement de la charge hydraulique en régime transitoire. Deuxièmement, la vitesse radiale et l’écoulement ont été investis selon le temps et la position, en réponse à trois types de schémas pompage-injection (pompage linéaire, non linéaire, sinusoïdale). Les écoulements dans l’aquifère sont apparus plus réactifs aux taux de pompage linéaires et non-linéaires qu’aux pompages constants. Les écoulements en réponse à des pompages et des recharges périodiques sont gouvernés par une fonction intégrale sinusoïdale. Finalement, le risque potentiel de fissuration du sol a une localisation donnée et causée par une tension générée par les cycles pompages-recharges, a été discuté suivant la solution analytique. Les zones de déformation, compression et extension, dérivées de l’analyse des résultats sont aussi potentiellement des zones génératrices de fissures. Cette approche utilisant des paramètres choisis avec précautions, permet d’évaluer en première approche la localisation potentielle des fissures autour des puits. Análisis del Movimiento Radial en un Acuífero Confinado debido a Bombeo e Inyección en un Pozo.Se han investigado matemáticamente tres aspectos de movimiento radial en un acuífero de matriz sólida el cual está bajo la influencia de fuerzas hidráulicas que se derivan de recarga y descarga. Primero se encontraron las soluciones analíticas en la velocidad y los campos de desplazamiento usando la definición de flujo de masa volumétrico, conservación de agua y masa sólida, la ley Darcy-Gersevanov, y el descenso de la presión hidráulica para flujo no permanente. Después se investigaron como respondían la velocidad radial y el desplazamiento de la matriz sólida del acuífero, en función del tiempo y localización, con tres esquemas de bombeo-inyección (i.e. ritmos de flujo de pozo linear, no linear, y sinusoidal). Se encontró que el movimiento del acuífero respondía mejor a ritmos de bombeo linear y no linear que a bombeo constante. El movimiento del acuífero en respuesta a la recarga y descarga periódica estuvo determinado por la función sinusoidal integral. Finalmente, se ha discutido, usando una solución analítica, el riesgo potencial de fracturamiento del terreno en una localidad dada ocasionado por esfuerzos de tensión que a su vez son inducidos por actividad de recarga-descarga. Las zonas de deformación compresivas y extensionales derivadas del análisis de los resultados indican la manifestación posible de esfuerzos de tensión que pueden causar grietas en el terreno. Los cálculos en muestras usando parámetros supuestos aportan una evaluación de primera mano de la localización del potencial de fracturamiento en relación al pozo.
Starting Page	445
Ending Page	458
Page Count	14
File Format	PDF
ISSN	14312174
Journal	Hydrogeology Journal
Volume Number	15
Issue Number	3
e-ISSN	14350157
Language	English
Publisher	Springer-Verlag
Publisher Date	2006-09-23
Publisher Institution	International Association of Hydrogeologists
Publisher Place	Berlin, Heidelberg
Access Restriction	One Nation One Subscription (ONOS)
Subject Keyword	Earth fissuring Unsteady flow Aquifer radial movement Analytic solutions Groundwater flow Waste Water Technology Water Pollution Control Water Management Aquatic Pollution Geology Hydrogeology
Content Type	Text
Resource Type	Article
Subject	Earth and Planetary Sciences Water Science and Technology

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