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Hydro power flexibility for power systems with variable renewable energy sources: an IEA Task 25 collaboration

Author

Listed:
  • Daniel Huertas‐Hernando
  • Hossein Farahmand
  • Hannele Holttinen
  • Juha Kiviluoma
  • Erkka Rinne
  • Lennart Söder
  • Michael Milligan
  • Eduardo Ibanez
  • Sergio Martín Martínez
  • Emilio Gomez‐Lazaro
  • Ana Estanqueiro
  • Luis Rodrigues
  • Luis Carr
  • Serafin van Roon
  • Antje Gesa Orths
  • Peter Børre Eriksen
  • Alain Forcione
  • Nickie Menemenlis

Abstract

Hydro power is one of the most flexible sources of electricity production. Power systems with considerable amounts of flexible hydro power potentially offer easier integration of variable generation, e.g., wind and solar. However, there exist operational constraints to ensure mid‐/long‐term security of supply while keeping river flows and reservoirs levels within permitted limits. In order to properly assess the effective available hydro power flexibility and its value for storage, a detailed assessment of hydro power is essential. Due to the inherent uncertainty of the weather‐dependent hydrological cycle, regulation constraints on the hydro system, and uncertainty of internal load as well as variable generation (wind and solar), this assessment is complex. Hence, it requires proper modeling of all the underlying interactions between hydro power and the power system, with a large share of other variable renewables. A summary of existing experience of wind integration in hydro‐dominated power systems clearly points to strict simulation methodologies. Recommendations include requirements for techno‐economic models to correctly assess strategies for hydro power and pumped storage dispatch. These models are based not only on seasonal water inflow variations but also on variable generation, and all these are in time horizons from very short term up to multiple years, depending on the studied system. Another important recommendation is to include a geographically detailed description of hydro power systems, rivers’ flows, and reservoirs as well as grid topology and congestion. WIREs Energy Environ 2017, 6:e220. doi: 10.1002/wene.220 This article is categorized under: Wind Power > Science and Materials Wind Power > Systems and Infrastructure

Suggested Citation

  • Daniel Huertas‐Hernando & Hossein Farahmand & Hannele Holttinen & Juha Kiviluoma & Erkka Rinne & Lennart Söder & Michael Milligan & Eduardo Ibanez & Sergio Martín Martínez & Emilio Gomez‐Lazaro & Ana , 2017. "Hydro power flexibility for power systems with variable renewable energy sources: an IEA Task 25 collaboration," Wiley Interdisciplinary Reviews: Energy and Environment, Wiley Blackwell, vol. 6(1), January.
    • Handle: RePEc:bla:wireae:v:6:y:2017:i:1:n:e220
    DOI: 10.1002/wene.220
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    1. Hunt, Julian David & Zakeri, Behnam & Lopes, Rafael & Barbosa, Paulo Sérgio Franco & Nascimento, Andreas & Castro, Nivalde José de & Brandão, Roberto & Schneider, Paulo Smith & Wada, Yoshihide, 2020. "Existing and new arrangements of pumped-hydro storage plants," Renewable and Sustainable Energy Reviews, Elsevier, vol. 129(C).
    2. Dolter, Brett & Fellows, G. Kent & Rivers, Nicholas, 2022. "The cost effectiveness of new reservoir hydroelectricity: British Columbia’s Site C project," Energy Policy, Elsevier, vol. 169(C).
    3. Pfeiffer, Olivia & Nock, Destenie & Baker, Erin, 2021. "Wind energy's bycatch: Offshore wind deployment impacts on hydropower operation and migratory fish," Renewable and Sustainable Energy Reviews, Elsevier, vol. 143(C).
    4. Hyun, Minwoo & Kim, Yeong Jae & Eom, Jiyong, 2020. "Assessing the impact of a demand-resource bidding market on an electricity generation portfolio and the environment," Energy Policy, Elsevier, vol. 147(C).
    5. Abadie, Luis M. & Chamorro, José M. & Huclin, Sébastien & Ven, Dirk-Jan van de, 2020. "On flexible hydropower and security of supply: Spain beyond 2020," Energy, Elsevier, vol. 203(C).
    6. Martin Kristiansen & Magnus Korpås & Hossein Farahmand, 2018. "Towards a fully integrated North Sea offshore grid: An engineering‐economic assessment of a power link island," Wiley Interdisciplinary Reviews: Energy and Environment, Wiley Blackwell, vol. 7(4), July.
    7. Ana Paula Coelho Clauberg & Renato de Mello & Flávio José Simioni & Simone Sehnem, 2021. "System for assessing the sustainability conditions of small hydro plants by fuzzy logic," Sustainable Development, John Wiley & Sons, Ltd., vol. 29(2), pages 300-317, March.
    8. Gemechu, Eskinder & Kumar, Amit, 2022. "A review of how life cycle assessment has been used to assess the environmental impacts of hydropower energy," Renewable and Sustainable Energy Reviews, Elsevier, vol. 167(C).
    9. Murphy, C.A. & Schleifer, A. & Eurek, K., 2021. "A taxonomy of systems that combine utility-scale renewable energy and energy storage technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 139(C).
    10. Matti Koivisto & Kaushik Das & Feng Guo & Poul Sørensen & Edgar Nuño & Nicolaos Cutululis & Petr Maule, 2019. "Using time series simulation tools for assessing the effects of variable renewable energy generation on power and energy systems," Wiley Interdisciplinary Reviews: Energy and Environment, Wiley Blackwell, vol. 8(3), May.
    11. Karhinen, Santtu & Huuki, Hannu, 2020. "How are the long distances between renewable energy sources and load centres reflected in locational marginal prices?," Energy, Elsevier, vol. 210(C).
    12. Hase, Bastian & Seidel, Christian, 2021. "Balancing services by run-of-river-hydropower at low reservoir amplitudes: Potentials, revenues and emission impacts," Applied Energy, Elsevier, vol. 294(C).
    13. Jurasz, Jakub & Kies, Alexander & Zajac, Pawel, 2020. "Synergetic operation of photovoltaic and hydro power stations on a day-ahead energy market," Energy, Elsevier, vol. 212(C).
    14. Liu, Hailiang & Brown, Tom & Andresen, Gorm Bruun & Schlachtberger, David P. & Greiner, Martin, 2019. "The role of hydro power, storage and transmission in the decarbonization of the Chinese power system," Applied Energy, Elsevier, vol. 239(C), pages 1308-1321.
    15. Binama, Maxime & Kan, Kan & Chen, Hui-Xiang & Zheng, Yuan & Zhou, Daqing & Su, Wen-Tao & Muhirwa, Alexis & Ntayomba, James, 2021. "Flow instability transferability characteristics within a reversible pump turbine (RPT) under large guide vane opening (GVO)," Renewable Energy, Elsevier, vol. 179(C), pages 285-307.

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