Exploring the trade-offs among hydropower benefits, environmental flow, and surface water temperature in a large reservoir under deep uncertainty

Wang，Longfan1; Xu，Bo1,2; Zhang，Chi1; Chen，Xiaoxian1; Zheng，Yi3; Zhang，Jingjie2,3; Fu，Guangtao4

2023-09-01

10.1016/j.jhydrol.2023.129913

Journal of Hydrology   影响因子和分区

0022-1694

1879-2707

The negative environmental impacts of large hydroelectric reservoirs have attracted wide attention. Reservoir operation alters seasonal flow patterns and reduces downstream flow during fish spawning seasons, which may lead to the loss of fish biodiversity. Meanwhile, reservoir impoundment reduces the flow velocity and raises the reservoir surface water temperature (SWT), potentially increasing the risk of algal blooms. While previous studies have designed various operation rules to balance the hydropower benefits and environmental flow or water temperature through multi-objective optimization approaches, a comprehensive analysis of trade-offs among the hydropower benefits, environmental flow, and SWT under an uncertain future remains lacking. This study contributes the many-objective robust decision-making (MORDM) framework to the multi-objective reservoir ecological operation for the first time. We quantify the trade-offs among maximizing the hydropower benefits, maximizing the reliability of environmental flow, and minimizing the number of days with high SWT; and evaluate the robustness of the operation rules under deep uncertainties from the climate conditions and electricity market. We apply MORDM to a large and deep reservoir, Nuozhadu, located in southwest China. Our results indicate that trade-offs exist between environmental flow and SWT, emphasizing the necessity to consider multiple environmental objectives in reservoir operation. Based on MORDM, we identify an operation scheme that can not only balance hydropower benefits and two environmental objectives, but also have robust performance against the uncertain future states. Scenario discovery analysis shows that air temperature is the most important uncertain factor that influences the robustness of operation rules. Our study provides a new perspective on reservoir operation planning to achieve balanced and sustainable developments in hydropower and environments under uncertain climate and electricity market conditions.

Deep uncertainty Reservoir optimal operation Robust Surface water temperature

SCI ; EI

英语

其他

National Outstanding Youth Science Fund Project of National Natural Science Foundation of China[51925902];National Outstanding Youth Science Fund Project of National Natural Science Foundation of China[92047302];

Engineering ; Geology ; Water Resources

Engineering, Civil ; Geosciences, Multidisciplinary ; Water Resources

WOS:001047451600001

ELSEVIER

20233014433341

Biodiversity ; Commerce ; Economic and social effects ; Environmental impact ; Environmental protection ; Fish ; Flow velocity ; Hydroelectric power ; Hydroelectric power plants ; Multiobjective optimization ; Pareto principle ; Reservoirs (water) ; Surface waters ; Sustainable development ; Water temperature

Reservoirs:441.2 ; Surface Water:444.1 ; Environmental Engineering:454 ; Environmental Impact and Protection:454.2 ; Hydroelectric Power Plants:611.1 ; Fluid Flow:631 ; Thermodynamics:641.1 ; Management:912.2 ; Optimization Techniques:921.5 ; Mechanical Variables Measurements:943.2 ; Social Sciences:971

ENGINEERING

2-s2.0-85165313462

Scopus

1.School of Hydraulic Engineering,Dalian University of Technology,Dalian,Liaoning,116024,China
2.Department of Civil and Environmental Engineering,National University of Singapore,117577,Singapore
3.School of Environmental Science and Engineering,Southern University of Science and Technology,Shenzhen,Guangdong,518055,China
4.Centre for Water Systems,University of Exeter,Exeter,EX4 4QF,United Kingdom

Wang，Longfan,Xu，Bo,Zhang，Chi,et al. Exploring the trade-offs among hydropower benefits, environmental flow, and surface water temperature in a large reservoir under deep uncertainty[J]. Journal of Hydrology,2023,624.

Wang，Longfan.,Xu，Bo.,Zhang，Chi.,Chen，Xiaoxian.,Zheng，Yi.,...&Fu，Guangtao.(2023).Exploring the trade-offs among hydropower benefits, environmental flow, and surface water temperature in a large reservoir under deep uncertainty.Journal of Hydrology,624.

Wang，Longfan,et al."Exploring the trade-offs among hydropower benefits, environmental flow, and surface water temperature in a large reservoir under deep uncertainty".Journal of Hydrology 624(2023).