Journal
WATER RESOURCES MANAGEMENT
Volume 35, Issue 13, Pages 4399-4413Publisher
SPRINGER
DOI: 10.1007/s11269-021-02956-7
Keywords
Dam management; Dredging; Overflows; Reservoir sedimentation; Water resource management
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Dams interrupt river continuity, causing sediment accumulation and reducing reservoir water storage capacity. This paper studied common strategies for managing water resources and reservoir sedimentation, and successfully implemented and evaluated different sediment management strategies at various parts of the reservoir to reduce overflows and stabilize storage capacity.
Dams accumulate sediment by interrupting the continuity of rivers, resulting in a loss of reservoir water storage capacity and decreased productive life. These issues raise a growing concern about the decreasing benefits of projects. This paper contributes to the implementation of sediment transit strategies and operating rules of reservoirs to reduce overflows and recover the technical-economic viability of sedimented reservoirs by maintaining ecological flow. The main difficulty lies in the fact that sedimentation of the reservoir limits the mobility of dredging equipment and blocks the intake. To regain the viability of the reservoir, the commonly used strategies to manage water resources and reservoir sedimentation were analyzed. To control reservoir sedimentation and restore the generation capacity, different sediment management strategies were implemented and evaluated at the entrance, body of the reservoir and intake; these strategies included reduction of the entry of sediments, restoration of the storage capacity, clearing of the water intake for the turbines to restore power generation, trash rack cleaning during the power generation process and modification of the hydroelectric power plant operating rules to optimize the economic income. The implemented strategies successfully reduced overflows from 88 to 40% in 3 years and stabilized the reservoir storage capacity by balancing the inflow and removal of sediments. Although the water intake for the turbines was cleaned, accumulation increased in other areas of the reservoir. Finally, root cause analysis (RCA) was employed, and solutions were proposed to increase the capacity of the reservoir and reduce overflows to 15%.
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