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Sedimentary Basin Water and Energy Storage: A Low Environmental Impact Option for the Bananal Basin

Author

Listed:
  • Julian David Hunt

    (Department of Engineering and Technology, Federal University of Espírito Santo, Vitória 29075-910, Brazil
    International Institute for Applied Systems Analysis, 2361 Laxenburg, Austria)

  • Andreas Nascimento

    (Department of Engineering and Technology, Federal University of Espírito Santo, Vitória 29075-910, Brazil)

  • Oldrich Joel Romero Guzman

    (Department of Engineering and Technology, Federal University of Espírito Santo, Vitória 29075-910, Brazil)

  • Gilton Carlos de Andrade Furtado

    (Amazonian Development Center in Engineering, Federal University of Pará, Belem 66075-110, Brazil)

  • Carla Schwengber ten Caten

    (Engineering School, Federal University of Rio Grande do Sul, Porto Alegre 90010-150, Brazil)

  • Fernanda Munari Caputo Tomé

    (Institute of Energy and Environment, Federal University of São Paulo, Sao Paulo 04021-001, Brazil)

  • Walter Leal Filho

    (Hamburg University of Applied Sciences, 20099 Hamburg, Germany)

  • Bojan Đurin

    (Department of Civil Engineering, University North, 42000 Varaždin, Croatia)

  • Maurício Lopes

    (The Brazilian Agricultural Research Corporation (Embrapa), Brasilia 70000-000, Brazil)

  • Yoshihide Wada

    (International Institute for Applied Systems Analysis, 2361 Laxenburg, Austria)

Abstract

Groundwater storage is an important water management solution that is overlooked by several countries worldwide. This paper evaluates the potential for storing water in the Bananal sedimentary basin and proposes the construction of canals to reduce sediment obstructions in the river flow and harmful flood events. This would allow for better control of the water level. The water stored in the sedimentary basin can be used as a climate change adaptation measure to ensure that the level of the flood plain is maintained high during a drought or low during an intense flood event. Additionally, the flood plain will function as a water reservoir, regulate the river flow downstream from the flood plain, and enhance hydropower generation. A significantly smaller reservoir area is expected to store water, as the water will be stored as groundwater in the sedimentary basin. Results show that the Bananal basin has the potential to store up to 49 km 3 of water, which can add up to 11.7 TWh of energy storage to the Brazilian energy matrix for a CAPEX energy storage cost of 0.095 USD/kWh. This is an interesting solution for the Araguaia basin and several other basins worldwide.

Suggested Citation

  • Julian David Hunt & Andreas Nascimento & Oldrich Joel Romero Guzman & Gilton Carlos de Andrade Furtado & Carla Schwengber ten Caten & Fernanda Munari Caputo Tomé & Walter Leal Filho & Bojan Đurin & Ma, 2022. "Sedimentary Basin Water and Energy Storage: A Low Environmental Impact Option for the Bananal Basin," Energies, MDPI, vol. 15(12), pages 1-18, June.
    • Handle: RePEc:gam:jeners:v:15:y:2022:i:12:p:4498-:d:843445
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    References listed on IDEAS

    as
    1. Julian D. Hunt & Walter Leal Filho, 2018. "Land, Water, and Wind Watershed Cycle: a strategic use of water, land and wind for climate change adaptation," Climatic Change, Springer, vol. 147(3), pages 427-439, April.
    2. Julian D. Hunt & Edward Byers & Yoshihide Wada & Simon Parkinson & David E. H. J. Gernaat & Simon Langan & Detlef P. Vuuren & Keywan Riahi, 2020. "Global resource potential of seasonal pumped hydropower storage for energy and water storage," Nature Communications, Nature, vol. 11(1), pages 1-8, December.
    3. Hunt, Julian David & Zakeri, Behnam & Falchetta, Giacomo & Nascimento, Andreas & Wada, Yoshihide & Riahi, Keywan, 2020. "Mountain Gravity Energy Storage: A new solution for closing the gap between existing short- and long-term storage technologies," Energy, Elsevier, vol. 190(C).
    4. Andrade Furtado, Gilton Carlos de & Amarante Mesquita, André Luiz & Morabito, Alessandro & Hendrick, Patrick & Hunt, Julian D., 2020. "Using hydropower waterway locks for energy storage and renewable energies integration," Applied Energy, Elsevier, vol. 275(C).
    5. Julian David Hunt & Giacomo Falchetta & Behnam Zakeri & Andreas Nascimento & Paulo Smith Schneider & Natália Assis Brasil Weber & André Luiz Amarante Mesquita & Paulo Sergio Franco Barbosa & Nivalde J, 2020. "Hydropower impact on the river flow of a humid regional climate," Climatic Change, Springer, vol. 163(1), pages 379-393, November.
    6. Hunt, Julian David & Nascimento, Andreas & Caten, Carla Schwengber ten & Tomé, Fernanda Munari Caputo & Schneider, Paulo Smith & Thomazoni, André Luis Ribeiro & Castro, Nivalde José de & Brandão, Robe, 2022. "Energy crisis in Brazil: Impact of hydropower reservoir level on the river flow," Energy, Elsevier, vol. 239(PA).
    7. Hunt, Julian David & Freitas, Marcos Aurélio Vasconcelos & Pereira Junior, Amaro Olímipio, 2014. "Enhanced-Pumped-Storage: Combining pumped-storage in a yearly storage cycle with dams in cascade in Brazil," Energy, Elsevier, vol. 78(C), pages 513-523.
    8. Hunt, Julian David & Guillot, Vincent & Freitas, Marcos Aurélio Vasconcelos de & Solari, Renzo S.E., 2016. "Energy crop storage: An alternative to resolve the problem of unpredictable hydropower generation in Brazil," Energy, Elsevier, vol. 101(C), pages 91-99.
    9. Hunt., Julian David & Stilpen, Daniel & de Freitas, Marcos Aurélio Vasconcelos, 2018. "A review of the causes, impacts and solutions for electricity supply crises in Brazil," Renewable and Sustainable Energy Reviews, Elsevier, vol. 88(C), pages 208-222.
    10. Walter Leal Filho & Julian Hunt & Alexandros Lingos & Johannes Platje & Lara Werncke Vieira & Markus Will & Marius Dan Gavriletea, 2021. "The Unsustainable Use of Sand: Reporting on a Global Problem," Sustainability, MDPI, vol. 13(6), pages 1-16, March.
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