S. V. N. Rao scite author profile

A regional conjunctive use model is developed for a near-real deltaic aquifer system, irrigated from a diversion system, with some reference to hydrogeoclimatic conditions prevalent in the east coastal deltas of India. Water resources are sufficiently available in these regions under average monsoon rainfall conditions, but their distribution in space and time has been ever challenging to water managers. Surface-water availability shows temporal fluctuations in terms of floods and droughts, and groundwater availability shows mainly spatial variability in terms of quality and quantity due to the hydrogeologic setting, boundary conditions, and aquifer properties. The combined simulation-optimization model proposed in this study is solved as a nonlinear, nonconvex combinatorial problem using a simulated annealing algorithm and an existing sharp interface model. The computational burden is managed within practical time frames by replacing the flow simulator with artificial neural networks and using efficient algorithmic guidance.

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Optimal Groundwater Management in Deltaic Regions using Simulated Annealing and Neural Networks

Rao¹,

Thandaveswara

Bhallamudi

et al. 2003

Water Resources Management

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Abstract. This study deals with the optimal management of groundwater in deltaic aquifer systems with some reference to east coastal hydro-geo-climatic conditions of India. A system of cooperative wells is proposed to supplement surface water sources to meet the demand during the non-monsoon season, without inducing excessive saltwater intrusion. The management models are solved as nonlinear, non-convex, combinatorial problems. The management models are solved by interfacing simulated annealing (SA) algorithm with an existing SHARP interface flow model to determine an optimal policy for location and pumpages of cooperative wells. Computational burden arising from SA algorithm is managed within practical timeframes by replacing the simulator with an artificial neural network (ANN).

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Optimal pumping from skimming wells from the Yamuna River flood plain in north India

et al. 2007

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Planning Groundwater Development in Coastal Deltas with Paleo Channels

Rao

Bhallamudi

Thandaveswara

et al. 2005

Water Resour Manage

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Abstract. In this study, a management model is presented for planning groundwater development in costal deltas with paleo channels. It is demonstrated that paleo channels are the best locations for locating the wells for large-scale pumping. Groundwater flow in these aquifers is simulated using a three-dimensional (3-D) density-dependent flow and transport model SEAWAT, which is suitable for a coastal and deltaic environment. A simulation-optimization model is used to determine the optimal locations and pumpages for groundwater development for a group of production wells, while limiting the salinity below desired levels. The mixed integer problem is solved using the Simulated Annealing algorithm and the SEAWAT simulation model. A trained Artificial Neural Network (ANN) is used as the virtual SEAWAT model to perform the simulations, in order to reduce the computational burden for application of the model on desktop computers. The applicability of the model is demonstrated on a hypothetical, but near-real, delta system.

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Groundwater Environment in Delhi, India

Sarkar

Ali

Kumar

et al. 2016

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S. V. N. Rao

Conjunctive Use of Surface and Groundwater for Coastal and Deltaic Systems

Optimal Groundwater Management in Deltaic Regions using Simulated Annealing and Neural Networks

Optimal pumping from skimming wells from the Yamuna River flood plain in north India

Planning Groundwater Development in Coastal Deltas with Paleo Channels

Groundwater Environment in Delhi, India

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