Screening Method for Contaminant Plume Control
Publication: Journal of Water Resources Planning and Management
Volume 113, Issue 3
Abstract
In many cases, mitigation of the impact of localized groundwater contamination can be achieved, or enhanced, by using groundwater withdrawal and/or injection to control plume migration. However, for complicated flow domains, where multiple wells are required, the determination of the pumping rates necessary to achieve a specific plume manipulation objective is nontrivial. A relatively simple and flexible methodology is presented for initial screening estimation of pumping rates that will achieve plume manipulation objectives. Plume manipulation objectives are formulated as unconstrained nonlinear minimization problems using penalty function methods. For solution, a nonlinear mathematical programming algorithm is loosely coupled to a finite difference simulator of the hydraulic response of the flow domain to pumping and a numerical integration routine for plume tracking.
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References
1.
Bazaraa, M. S., and Shetty, C. M. (1979). Nonlinear programming—Theory and algorithms. John Wiley and Sons, New York, N.Y.
2.
Fletcher, R. (1965). “Function minimization without evaluating derivatives—A review.” Computer J., 8(1), Jan., 33–41.
3.
Gorelick, S. M. (1983). “A review of distributed parameter groundwater management modeling methods.” Water Resour. Res. 19(2), Apr., 305–319.
4.
Gorelick, S. M., and Remson, I. (1982a). “Optimal location and management of waste disposal facilities affecting ground water quality.” Water Resour. Bull. 18(1), Feb., 43–51.
5.
Gorelick, S. M., and Remson, I. (1982b). “Optimal dynamic management of groundwater pollutant sources.” Water Resour. Res. 18(1), Feb., 71–76.
6.
Gorelick, S. M., et al. (1984). “Aquifer reclamation design: The use of contaminant transport simulation combined with nonlinear programming.” Water Resour. Res. 20(4), Apr., 415–427.
7.
Luenberger, D. G. (1973). Introduction to linear and nonlinear programming. Addison and Wesley Pub. Co., Reading, Mass.
8.
Molz, F. J., and Bell, L. C. (1977). “Head gradient control in aquifers used for fluid storage.” Water Resour. Res. 13(4), Aug., 795–798.
9.
Nelson, R. W. (1978). “Evaluating the environmental consequences of groundwater contamination: 1. An overview of contaminant arrival distribution as general evaluation requirements.” Water Resour. Res. 14(3), Jun., 409–415.
10.
Powell, M. J. D. (1964). “An efficient method for finding the minimum of a function of several variables without calculating derivates.” Computer J. 7(1), Apr., 155–162.
11.
Powell, M. J. D. (1970). “A survey of numerical methods for unconstrained optimization.” SIAM Rev. 12(1), Jan., 47–53.
12.
Rao, S. S. (1984). Optimization: Theory and applications. Wiley Eastern Limited, New Delhi, India.
13.
Willis, R. (1976). “Optimal groundwater quality management: Well injection of waste waters.” Water Resour. Res. 12(1), Feb., 47–53.
14.
Willis, R., and Finney, B. A. (1985). “Optimal control of nonlinear groundwater hydraulics: Theoretical development and numerical experiments.” Water Resour. Res. 21(10), Oct., 1476–1482.
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Copyright © 1987 ASCE.
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Published online: Jul 1, 1987
Published in print: Jul 1987
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