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Rethinking the role of solar energy under location specific constraints

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  • Eikeland, Odin Foldvik
  • Apostoleris, Harry
  • Santos, Sergio
  • Ingebrigtsen, Karoline
  • Boström, Tobias
  • Chiesa, Matteo

Abstract

In this manuscript we evaluate the potential of photovoltaic systems to meet some dedicated energy demand in specific geographic locations. Our approach is based on location-specific constraints rather than on pre-established, location-independent methodologies or assumptions. First, we propose that a thorough analysis of the socio-economic and technical possibilities of a location must act as the guide to optimize the deployment of renewables. This requires detailed knowledge of the area. Second, we propose that optimizing the exploitation of renewables by focusing on a particular location can also lead to successful outcomes with global impact. With this in mind we focus our attention on the Arctic region, known for its highly seasonal solar availability, and the challenge posed by increasing cruise ship tourism and corresponding air pollution. Our study targets Tromsø city, Norway, and we show that solar energy generation could be a strong contribution for charging cruise ships in the summer with no need for generation and transmission investments. Our study opens the door to shifting to a location specific paradigm to seek sustainable energy solutions with the possibility to have a global impact.

Suggested Citation

  • Eikeland, Odin Foldvik & Apostoleris, Harry & Santos, Sergio & Ingebrigtsen, Karoline & Boström, Tobias & Chiesa, Matteo, 2020. "Rethinking the role of solar energy under location specific constraints," Energy, Elsevier, vol. 211(C).
    • Handle: RePEc:eee:energy:v:211:y:2020:i:c:s0360544220319459
    DOI: 10.1016/j.energy.2020.118838
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    References listed on IDEAS

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    1. Harry Apostoleris & Sgouris Sgouridis & Marco Stefancich & Matteo Chiesa, 2018. "Evaluating the factors that led to low-priced solar electricity projects in the Middle East," Nature Energy, Nature, vol. 3(12), pages 1109-1114, December.
    2. Vieira, Filomeno M. & Moura, Pedro S. & de Almeida, Aníbal T., 2017. "Energy storage system for self-consumption of photovoltaic energy in residential zero energy buildings," Renewable Energy, Elsevier, vol. 103(C), pages 308-320.
    3. Jon Olauson & Mohd Nasir Ayob & Mikael Bergkvist & Nicole Carpman & Valeria Castellucci & Anders Goude & David Lingfors & Rafael Waters & Joakim Widén, 2016. "Net load variability in Nordic countries with a highly or fully renewable power system," Nature Energy, Nature, vol. 1(12), pages 1-8, December.
    4. Heide, Dominik & Greiner, Martin & von Bremen, Lüder & Hoffmann, Clemens, 2011. "Reduced storage and balancing needs in a fully renewable European power system with excess wind and solar power generation," Renewable Energy, Elsevier, vol. 36(9), pages 2515-2523.
    5. Luthander, Rasmus & Widén, Joakim & Nilsson, Daniel & Palm, Jenny, 2015. "Photovoltaic self-consumption in buildings: A review," Applied Energy, Elsevier, vol. 142(C), pages 80-94.
    6. Lee, Kyoung-Jun & Shin, Dongsul & Yoo, Dong-Wook & Choi, Han-Kyu & Kim, Hee-Je, 2013. "Hybrid photovoltaic/diesel green ship operating in standalone and grid-connected mode – Experimental investigation," Energy, Elsevier, vol. 49(C), pages 475-483.
    7. Felix Creutzig & Peter Agoston & Jan Christoph Goldschmidt & Gunnar Luderer & Gregory Nemet & Robert C. Pietzcker, 2017. "The underestimated potential of solar energy to mitigate climate change," Nature Energy, Nature, vol. 2(9), pages 1-9, September.
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    Cited by:

    1. Muñoz Ortiz, Miguel & Kvalbein, Lisa & Hellemo, Lars, 2021. "Evaluation of open photovoltaic and wind production time series for Norwegian locations," Energy, Elsevier, vol. 236(C).

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