Digital Simulation Model for Brine Coning in Unconfined Anisotropic Aquifers

Q4 Environmental Science

Water and Energy International Pub Date : 1985-10-01 DOI:10.2166/NH.1987.0004

S. P. Rajagopalan, U. Jose

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Abstract

A digital simulation model has been presented for locating the steady state stable brine cone position beneath partially penetrating wells tapping from the fresh water zone overlying a saline zone in an unconfined anisotropic aquifer. A graphical procedure developed by Morris Muskat has been converted into a numerical one and is used to successively approximate the brine cone position. The truncation in the fresh water zone both due to the brine cone and the depression in the water table are taken care of by repeated adjustment of the hydraulic conductances of the affected branches in the numerical model of the aquifer. An iterative version of the alternating direction implicit method has been used to solve the flow equations repeatedly till successively modified fresh water flow zones converge within a specified tolerance level. The results from the simulation model for a range of expected field conditions of aquifer, well and fluid density contrast have been presented in the form of graphs making use of appropriate non-dimensional parameters. These results can find applications in designing wells so that the discharge from those wells are limited to levels below which fresh water alone is drawn without any contamination by the underlying salt water.

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非承压各向异性含水层盐水运移数字模拟模型

提出了一种定位无约束各向异性含水层盐层上覆淡水带部分透井下稳态稳定盐水锥位置的数字模拟模型。Morris Muskat开发的图形程序已转换为数值程序，并用于依次逼近盐水锥的位置。在含水层数值模型中，通过反复调整受影响分支的水力导度来处理淡水区因盐水锥和地下水位下降而造成的截断。采用交替方向隐式方法的迭代版本反复求解流动方程，直到连续修正的淡水流区收敛在指定的容差范围内。利用适当的无量纲参数，模拟模型对含水层、井和流体密度对比的一系列预期现场条件的结果以图形的形式表示。这些结果可以应用于井的设计，使这些井的排放被限制在淡水的水平以下，而不受底层盐水的污染。

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来源期刊

Water and Energy International Environmental Science-Water Science and Technology

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： Water and Energy International is a monthly journal covering special features on development activities in three important sectors ie. Power , water resources, and renewable energy. Published by Central Board of Irrigation and Power for more than 6 decades, this journal covers the latest information on the subject areas and enjoys wide readership all over the world.