Ranji Ranjithan scite author profile

Authors may post the final draft of their work on open, unrestricted Internet sites or deposit it in an institutional repository when the draft contains a link to the bibliographic record of the published version in the ASCE Civil Engineering Database. Final draft means the version submitted to ASCE after peer review and prior to copyediting or other ASCE production activities; it does not include the copyedited version, the page proof, or a PDF of the published version.

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A parallel evolutionary strategy based simulation–optimization approach for solving groundwater source identification problems

Mirghani

Mahinthakumar

Tryby

et al. 2009

Advances in Water Resources

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Improved regional water management utilizing climate forecasts: An interbasin transfer model with a risk management framework

Sankarasubramanian

Ranjithan

et al. 2014

Water Resources Research

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Regional water supply systems undergo surplus and deficit conditions due to differences in inflow characteristics as well as due to their seasonal demand patterns. This study proposes a framework for regional water management by proposing an interbasin transfer (IBT) model that uses climate-informationbased inflow forecast for minimizing the deviations from the end-of-season target storage across the participating pools. Using the ensemble streamflow forecast, the IBT water allocation model was applied for two reservoir systems in the North Carolina Triangle Area. Results show that interbasin transfers initiated by the ensemble streamflow forecast could potentially improve the overall water supply reliability as the demand continues to grow in the Triangle Area. To further understand the utility of climate forecasts in facilitating IBT under different spatial correlation structures between inflows and between the initial storages of the two systems, a synthetic experiment was designed to evaluate the framework under inflow forecast having different skills. Findings from the synthetic study can be summarized as follows: (a) inflow forecasts combined with the proposed IBT optimization model provide improved allocation in comparison to the allocations obtained under the no-transfer scenario as well as under transfers obtained with climatology; (b) spatial correlations between inflows and between initial storages among participating reservoirs could also influence the potential benefits that could be achieved through IBT; (c) IBT is particularly beneficial for systems that experience low correlations between inflows or between initial storages or on both attributes of the regional water supply system. Thus, if both infrastructure and permitting structures exist for promoting interbasin transfers, season-ahead inflow forecasts could provide added benefits in forecasting surplus/deficit conditions among the participating pools in the regional water supply system.

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A framework for incorporating ecological releases in single reservoir operation

Wang

Brill

Ranjithan

et al. 2015

Advances in Water Resources

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Life Cycle Management of Municipal Solid Waste

et al. 1999

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Ranji Ranjithan

Battle of the Water Networks II

A parallel evolutionary strategy based simulation–optimization approach for solving groundwater source identification problems

Improved regional water management utilizing climate forecasts: An interbasin transfer model with a risk management framework

A framework for incorporating ecological releases in single reservoir operation

Life Cycle Management of Municipal Solid Waste

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