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A methodology for maximizing the benefits of solar landfills on closed sites

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  • Szabó, Sándor
  • Bódis, Katalin
  • Kougias, Ioannis
  • Moner-Girona, Magda
  • Jäger-Waldau, Arnulf
  • Barton, Gábor
  • Szabó, László

Abstract

Local urban planning has become concerned over clean energy technologies development on greenfield land that may lead to competition in land use. Solar photovoltaic systems on agriculture land is an indicative example of this disputed strategy. At the same time closed landfills and their post-closure management pose environmental, economic and land value concerns at the local authorities. In the present work we analyse the concept of solar photovoltaic system installation in closed landfills. This practice has already received attention and the present article provides an overview of existing installations as well as assessment of the existing potential. Moreover, it introduces a methodology that geoanalyses closed sites, evaluates them in a hierarchical manner and suggests the appropriate PV technology for each site. The methodology has been applied in Hungary and revealed that 450MWp of solar could be deployed in Hungarian closed landfills. EU-level projections provide estimations for the potential to range around 13GWp. Such an approach may become a forefront instrument in the local, bottom-up sustainability policy planning.

Suggested Citation

  • Szabó, Sándor & Bódis, Katalin & Kougias, Ioannis & Moner-Girona, Magda & Jäger-Waldau, Arnulf & Barton, Gábor & Szabó, László, 2017. "A methodology for maximizing the benefits of solar landfills on closed sites," Renewable and Sustainable Energy Reviews, Elsevier, vol. 76(C), pages 1291-1300.
    • Handle: RePEc:eee:rensus:v:76:y:2017:i:c:p:1291-1300
    DOI: 10.1016/j.rser.2017.03.117
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    1. Bódis, Katalin & Kougias, Ioannis & Jäger-Waldau, Arnulf & Taylor, Nigel & Szabó, Sándor, 2019. "A high-resolution geospatial assessment of the rooftop solar photovoltaic potential in the European Union," Renewable and Sustainable Energy Reviews, Elsevier, vol. 114(C), pages 1-1.
    2. Doorga, Jay R.S. & Rughooputh, Soonil D.D.V. & Boojhawon, Ravindra, 2019. "Multi-criteria GIS-based modelling technique for identifying potential solar farm sites: A case study in Mauritius," Renewable Energy, Elsevier, vol. 133(C), pages 1201-1219.
    3. Jäger-Waldau, Arnulf & Kougias, Ioannis & Taylor, Nigel & Thiel, Christian, 2020. "How photovoltaics can contribute to GHG emission reductions of 55% in the EU by 2030," Renewable and Sustainable Energy Reviews, Elsevier, vol. 126(C).
    4. Kougias, Ioannis & Taylor, Nigel & Kakoulaki, Georgia & Jäger-Waldau, Arnulf, 2021. "The role of photovoltaics for the European Green Deal and the recovery plan," Renewable and Sustainable Energy Reviews, Elsevier, vol. 144(C).
    5. Katalin Bódis & Ioannis Kougias & Nigel Taylor & Arnulf Jäger-Waldau, 2019. "Solar Photovoltaic Electricity Generation: A Lifeline for the European Coal Regions in Transition," Sustainability, MDPI, vol. 11(13), pages 1-14, July.
    6. Jurasz, Jakub & Dąbek, Paweł B. & Kaźmierczak, Bartosz & Kies, Alexander & Wdowikowski, Marcin, 2018. "Large scale complementary solar and wind energy sources coupled with pumped-storage hydroelectricity for Lower Silesia (Poland)," Energy, Elsevier, vol. 161(C), pages 183-192.
    7. Mellor, P. & Lord, R.A. & João, E. & Thomas, R. & Hursthouse, A., 2021. "Identifying non-agricultural marginal lands as a route to sustainable bioenergy provision - A review and holistic definition," Renewable and Sustainable Energy Reviews, Elsevier, vol. 135(C).

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