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Designing diversified renewable energy systems to balance multisector performance

Author

Listed:
  • Jose M. Gonzalez

    (The University of Manchester)

  • James E. Tomlinson

    (The University of Manchester)

  • Eduardo A. Martínez Ceseña

    (The University of Manchester
    The University of Manchester)

  • Mohammed Basheer

    (The University of Manchester)

  • Emmanuel Obuobie

    (Water Research Institute, Council for Scientific and Industrial Research)

  • Philip T. Padi

    (Volta River Authority)

  • Salifu Addo

    (Energy Commission)

  • Rasheed Baisie

    (Ghana Grid Company Ltd)

  • Mikiyas Etichia

    (The University of Manchester)

  • Anthony Hurford

    (The University of Manchester)

  • Andrea Bottacin-Busolin

    (The University of Manchester
    University of Padua)

  • John Matthews

    (Alliance for Global Water Adaptation)

  • James Dalton

    (International Union for the Conservation of Nature)

  • D. Mark Smith

    (International Water Management Institute)

  • Justin Sheffield

    (University of Southampton)

  • Mathaios Panteli

    (The University of Manchester
    University of Cyprus)

  • Julien J. Harou

    (The University of Manchester
    University College London)

Abstract

Renewable energy system development and improved operation can mitigate climate change. In many regions, hydropower is called to counterbalance the temporal variability of intermittent renewables like solar and wind. However, using hydropower to integrate these renewables can affect aquatic ecosystems and increase cross-sectoral water conflicts. We develop and apply an artificial intelligence-assisted multisector design framework in Ghana, which shows how hydropower’s flexibility alone could enable expanding intermittent renewables by 38% but would increase sub-daily Volta River flow variability by up to 22 times compared to historical baseload hydropower operations. This would damage river ecosystems and reduce agricultural sector revenues by US$169 million per year. A diversified investment strategy identified using the proposed framework, including intermittent renewables, bioenergy, transmission lines and strategic hydropower re-operation could reduce sub-daily flow variability and enhance agricultural performance while meeting future national energy service goals and reducing CO2 emissions. The tool supports national climate planning instruments such as nationally determined contributions (NDCs) by steering towards diversified and efficient power systems and highlighting their sectoral and emission trade-offs and synergies.

Suggested Citation

  • Jose M. Gonzalez & James E. Tomlinson & Eduardo A. Martínez Ceseña & Mohammed Basheer & Emmanuel Obuobie & Philip T. Padi & Salifu Addo & Rasheed Baisie & Mikiyas Etichia & Anthony Hurford & Andrea Bo, 2023. "Designing diversified renewable energy systems to balance multisector performance," Nature Sustainability, Nature, vol. 6(4), pages 415-427, April.
    • Handle: RePEc:nat:natsus:v:6:y:2023:i:4:d:10.1038_s41893-022-01033-0
    DOI: 10.1038/s41893-022-01033-0
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    References listed on IDEAS

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    1. Qing Guo & Zhuozhi Lai & Xiuhui Zuo & Weipeng Xian & Shaochun Wu & Liping Zheng & Zhifeng Dai & Sai Wang & Qi Sun, 2023. "Photoelectric responsive ionic channel for sustainable energy harvesting," Nature Communications, Nature, vol. 14(1), pages 1-10, December.

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