Reservoir Scheduling Using a Multi-Objective Cuckoo Search Algorithm under Climate Change in Jinsha River, China

Yang, Feng; Xu, Jiang; Hong, Yang; Wang, Yongqiang; Yuan, Zhe; Wang, Chao

doi:10.3390/w13131803

Cited by 5 publications

(4 citation statements)

References 38 publications

(27 reference statements)

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“…Research [12] combines simulated annealing with particle swarm optimization to improve the accuracy and efficiency of hourly generation scheduling for cascade hydropower plants with complex hydraulic coupling and head-dependent prohibited operating zones. [13] investigates the impact of climate change on total power generation in cascade hydropower stations. [14] proposes a decentralized monthly generation scheduling model for cascade hydropower plants in multiple time-scale markets.…”

Section: B Literature Reviewmentioning

confidence: 99%

Robust Scheduling of a Hybrid Hydro/Photovoltaic/Pumped-Storage System for Multiple Grids Peak-Shaving and Congestion Management

Zhou,

Lu,

Wei

et al. 2024

IEEE Access

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Southwest China possesses substantial hydropower potential and abundant solar resources. To harness these renewable resources effectively, extensive photovoltaic (PV) facilities and cascaded hydropower stations have been strategically constructed in mountainous regions, culminating in the development of hybrid energy systems (HES) that combine hydro, PV, and pumped-storage. Nevertheless, the current research on HES scheduling often neglects the transmission congestion in the local grid to which HES is connected. This oversight results in avoidable curtailment of solar power, load shedding, and water spillage. Hence, this paper introduces a robust optimization model for HES scheduling. The primary objectives are to enhance the integration of renewable energy sources, mitigate water spillage, minimize peakvalley differences in multiple external grids, and alleviate transmission congestion within the HES-connected grid. To validate the effectiveness of this approach, both a modified IEEE 6-bus system and a real-world case study from the Yalong River region in Southwest China are employed. Numerical results illustrate that by involving the HES in local grid congestion management, a substantial reduction in PV generation curtailment and water wastage is achievable, with minimal impact on peak load management in multiple external grids.INDEX TERMS Cascade hydropower plants, pumped-storage, renewable energy integration, generation scheduling, peak shaving, multiple interconnected power grids

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Section: B Literature Reviewmentioning

confidence: 99%

Robust Scheduling of a Hybrid Hydro/Photovoltaic/Pumped-Storage System for Multiple Grids Peak-Shaving and Congestion Management

Zhou,

Lu,

Wei

et al. 2024

IEEE Access

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“…They compared the results with a classical scheme. Additionally, Yu et al [20] investigated the influence of climate and hydrology on hydropower station performance. They formulated a multi-objective optimization problem that considered the total power output and remaining load changes in the grid for the Jinsha River.…”

Section: Related Workmentioning

confidence: 99%

Optimizing hydropower scheduling through accurate power load prediction: A practical case study

Huang,

Tan,

Meng

et al. 2024

Heliyon

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“…Yu et al addressed the impact of climate and hydrology on the performance of hydropower station by formulating a multi-objective optimization problem that considers the total power output of hydropower station and the remaining load changes in the grid. To solve this problem in the context of Jinsha River, they proposed an improved multi-objective cuckoo search algorithm and validated its performance against five state-of-the-art algorithms [18]. Kong et al introduced a marine predators algorithm to solve and compare with other algorithms with the objective of maximizing power generation and minimizing unsuitable ecology [19].…”

Section: Current Status Of Research On Multi-objective Optimization O...mentioning

confidence: 99%

Hydropower Scheduling Under Missing Power Load Data: Optimizing Energy Efficiency and Navigation Performance

Huang,

Tan,

Meng

et al. 2023

Preprint

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Hydropower stations integrated into the grid system often suffer from imbalance in the dispatch of power generation and shipping benefits due to untimely acquisition of load data. In this study, a dispatch model integrating power load forecasting and multi-objective optimization is constructed and practically applied to Shatuo Hydropower Station in Guizhou Province, China. Compared with existing models, the model can accomplish the optimal dispatch of grid-connected hydropower stations in the absence of power load. The model first uses seven prediction models to predict the power load, and then uses the GA-NSGA-II algorithm (i.e., the improved elite non-dominated sorting genetic algorithm) to dispatch the discharged flow of Shatuo Hydropower Station. At the same time, we set the power load demand value in the power generation objective function as the load value obtained from the prediction and the real load value for experimental comparison, respectively. The results show that the prediction accuracy of the CNN-GRU model (i.e., Convolutional Neural Network-Gate Recursive Unit) is better than the other models, and the values of R-squared and RMSE are 0.991 and 0.026, respectively. The scheduling of the GA-NSGA-II algorithm results in Hypervolume metrics and Spacing metrics better than the NSGA-II algorithm. The difference between scheduling using predicted load values and scheduling using real load values is negligible within 5 (${m}^{3}/s$). The result of optimized scheduling enables Shatuo Hydropower Station to achieve double benefits of power generation and shipping. This method solves the problems of untimely load data collection and inadequate scheduling, and provides an effective way for hydropower station scheduling for power generation and navigation.

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Reservoir Scheduling Using a Multi-Objective Cuckoo Search Algorithm under Climate Change in Jinsha River, China

Cited by 5 publications

References 38 publications

Robust Scheduling of a Hybrid Hydro/Photovoltaic/Pumped-Storage System for Multiple Grids Peak-Shaving and Congestion Management

Robust Scheduling of a Hybrid Hydro/Photovoltaic/Pumped-Storage System for Multiple Grids Peak-Shaving and Congestion Management

Optimizing hydropower scheduling through accurate power load prediction: A practical case study

Hydropower Scheduling Under Missing Power Load Data: Optimizing Energy Efficiency and Navigation Performance

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