Rainfall induced groundwater mound in wedge-shaped promontories: The Strack-Chernyshov model revisited

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• 作者：A.R. Kacimov^a ; ^{anvar@squ.edu.om" class="auth_mail" title="E-mail the corresponding author} ; ^{akacimov@gmail.com" class="auth_mail" title="E-mail the corresponding author} ; I.R. Kayumov^b ; ^{ikayumov@kpfu.ru" class="auth_mail" title="E-mail the corresponding author} ; A. Al-Maktoumi^a ; ^{ali4530@squ.edu.om" class="auth_mail" title="E-mail the corresponding author}
• 关键词：Dirichlet conditions for Poisson equation ; Analytic and numeric solutions ; Dupuit&ndash ; Forchheimer model ; Water table with natural recharge ; Evaporation and sea water intrusion
• 刊名：Advances in Water Resources
• 出版年：2016
• 出版时间：November 2016
• 年：2016
• 卷：97
• 期：Complete
• 页码：110-119
• 全文大小：3486 K

文摘

An analytical solution to the Poisson equation governing Strack's discharge potential (squared thickness of a saturated zone in an unconfined aquifer) is obtained in a wedge-shaped domain with given head boundary conditions on the wedge sides (specified water level in an open water body around a porous promontory). The discharge vector components, maximum elevation of the water table in promontory vertical cross-sections, quantity of groundwater seeping through segments of the wedge sides, the volume of fresh groundwater in the mound are found. For acute angles, the solution to the problem is non-unique and specification of the behaviour at infinity is needed. A “basic” solution is distinguished, which minimizes the water table height above a horizontal bedrock. MODFLOW simulations are carried out in a finite triangular island and compare solutions with a constant-head, no-flow and “basic” boundary condition on one side of the triangle. Far from the tip of an infinite-size promontory one has to be cautious with truncation of the simulated flow domains and imposing corresponding boundary conditions. For a right and obtuse wedge angles, there are no positive solutions for the case of constant accretion on the water table. In a particular case of a confined rigid wedge-shaped aquifer and incompressible fluid, from an explicit solution to the Laplace equation for the hydraulic head with arbitrary time-space varying boundary conditions along the promontory rays, essentially 2-D transient Darcian flows within the wedge are computed. They illustrate that surface water waves on the promontory boundaries can generate strong Darcian waves inside the porous wedge. Evaporation from the water table and sea-water intruded interface (rather than a horizontal bed) are straightforward generalizations for the Poissonian Strack potential.