Groundwater remediation design using physics-based flow, transport, and optimization technologies

Larry M Deschaine; Theodore P Lillys; János D Pintér

Journal ArticleOPEN ACCESS

Groundwater remediation design using physics-based flow, transport, and optimization technologies

Deschaine L
Lillys T
Pintér J

Environmental Systems Research (2013) 2(1) 6

DOI: 10.1186/2193-2697-2-6

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Abstract

… LGO employs a mild assumption of Lipschitz continuity, which allows an efficient and a robust search for … in R n ; and g(x) which is an m-vector of additional continuous constraint functions … The assumption is that Lipschitz continuity holds as expressed by the inequality f j x 1 − f j x …

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Deschaine, L. M., Lillys, T. P., & Pintér, J. D. (2013). Groundwater remediation design using physics-based flow, transport, and optimization technologies. Environmental Systems Research, 2(1), 6. https://doi.org/10.1186/2193-2697-2-6

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Groundwater remediation design using physics-based flow, transport, and optimization technologies

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