Performance of Deterministic and Probabilistic Hydrological Forecasts for the Short-Term Optimization of a Tropical Hydropower Reservoir

Hydropower is the most important source of electricity in Brazil. It is subject to the natural variability of water yield. One building block of the proper management of hydropower assets is the short-term forecast of reservoir inflows as input for an online, event-based optimization of its release...

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Bibliographic Details
Published in:Water resources management 2016-08, Vol.30 (10), p.3609-3625
Main Authors: Fan, Fernando Mainardi, Schwanenberg, Dirk, Alvarado, Rodolfo, Assis dos Reis, Alberto, Collischonn, Walter, Naumman, Steffi
Format: Article
Language:English
Subjects:
Atmospheric Sciences
Case studies
Civil Engineering
Decision making
Earth and Environmental Science
Earth Sciences
Electricity
Energy
Environment
Experiments
Flood control
Flood protection
Floods
Forecasting
Forecasts
Geotechnical Engineering & Applied Earth Sciences
Hydroelectric plants
Hydroelectric power
Hydrogeology
Hydrologic models
Hydrology
Hydrology/Water Resources
Lead time
Mathematical models
Nuclear power plants
Optimization
Optimization techniques
Precipitation
Probabilistic methods
Probability theory
Rain
Reservoir management
Reservoirs
Rivers
Stochastic models
Stochasticity
Strategic planning
Stream discharge
Stream flow
Streamflow forecasting
Studies
Tropical environments
Water yield
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Summary:Hydropower is the most important source of electricity in Brazil. It is subject to the natural variability of water yield. One building block of the proper management of hydropower assets is the short-term forecast of reservoir inflows as input for an online, event-based optimization of its release strategy. While deterministic forecasts and optimization schemes are the established techniques for short-term reservoir management, the use of probabilistic ensemble forecasts and multi-stage stochastic optimization techniques is receiving growing attention. The present work introduces a novel, mass conservative scenario tree reduction in combination with a detailed hindcasting and closed-loop control experiments for a multi-purpose hydropower reservoir in a tropical region in Brazil. The case study is the hydropower project Três Marias, which is operated with two main objectives: (i) hydroelectricity generation and (ii) flood control downstream. In the experiments, precipitation forecasts based on observed data, deterministic and probabilistic forecasts are used to generate streamflow forecasts in a hydrological model over a period of 2 years. Results for a perfect forecast show the potential benefit of the online optimization and indicate a desired forecast lead time of 30 days. In comparison, the use of actual forecasts of up to 15 days shows the practical benefit of operational forecasts, where stochastic optimization (15 days lead time) outperforms the deterministic version (10 days lead time) significantly. The range of the energy production rate between the different approaches is relatively small, between 78% and 80%, suggesting that the use of stochastic optimization combined with ensemble forecasts leads to a significantly higher level of flood protection without compromising the energy production.
ISSN:0920-4741
1573-1650
DOI:10.1007/s11269-016-1377-8