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A Multidisciplinary Approach for an Effective and Rational Energy Transition in Crete Island, Greece

Author

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  • Dimitris Al. Katsaprakakis

    (Power Plant Synthesis Laboratory, Department of Mechanical Engineering, Hellenic Mediterranean University, 71410 Heraklion, Greece)

  • Apostolos Michopoulos

    (Energy and Environmental Design of Buildings Research Laboratory, Faculty of Engineering, University of Cyprus, Nicosia 2109, Cyprus)

  • Vasiliki Skoulou

    (B 3 Challenge Group, Department of Chemical Engineering, University of Hull, Hull HU6 7RX, UK)

  • Eirini Dakanali

    (Power Plant Synthesis Laboratory, Department of Mechanical Engineering, Hellenic Mediterranean University, 71410 Heraklion, Greece)

  • Aggeliki Maragkaki

    (Laboratory of Solid Waste and Wastewater Management, School of Agricultural Technology, Hellenic Mediterranean University, 71410 Heraklion, Greece)

  • Stavroula Pappa

    (European Federation of Citizen Energy Cooperatives, Rue de la Charité 22, 1210 Brussels, Belgium)

  • Ioannis Antonakakis

    (Power Plant Synthesis Laboratory, Department of Mechanical Engineering, Hellenic Mediterranean University, 71410 Heraklion, Greece)

  • Dimitris Christakis

    (Power Plant Synthesis Laboratory, Department of Mechanical Engineering, Hellenic Mediterranean University, 71410 Heraklion, Greece)

  • Constantinos Condaxakis

    (Power Plant Synthesis Laboratory, Department of Mechanical Engineering, Hellenic Mediterranean University, 71410 Heraklion, Greece)

Abstract

This article proposes a mixture of actions for the development of an effective and rational energy transition plan for all sectors and for all types of onshore final energy use in Crete. Energy transition is initiated with an appropriate capacity building campaign. The plan is based on the introduction of energy saving measures and the exploitation of all the locally available energy resources (wind, solar, geothermal potential, biomass), integrated in a cluster of centralized and decentralized power plants and smart grids to produce electricity and heat and for the transition to e-mobility. The core of the energy transition in Crete will be a set of 14 wind parks and Pumped Hydro Storage systems (PHS) for electricity generation and 12 Combined Heat and Power plants, properly designed and dispersed in the insular territory. Economic analysis is executed for the proposed essential power plants on the island. Biomass, solar and geothermal potential can cover the heating demand in Crete several times. Heat can be produced with a specific cost of 0.05 EUR/kWh th from cogeneration plants fired with solid biomass and biogas. The wind parks-PHS systems exhibit payback periods of approximately 10 years with a final electricity selling price at 0.12 EUR/kWh el . The article shows that 100% energy transition in Crete constitutes a feasible target.

Suggested Citation

  • Dimitris Al. Katsaprakakis & Apostolos Michopoulos & Vasiliki Skoulou & Eirini Dakanali & Aggeliki Maragkaki & Stavroula Pappa & Ioannis Antonakakis & Dimitris Christakis & Constantinos Condaxakis, 2022. "A Multidisciplinary Approach for an Effective and Rational Energy Transition in Crete Island, Greece," Energies, MDPI, vol. 15(9), pages 1-49, April.
    • Handle: RePEc:gam:jeners:v:15:y:2022:i:9:p:3010-:d:798071
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    References listed on IDEAS

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    Cited by:

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    3. Arnaoutakis, Georgios E. & Katsaprakakis, Dimitris Al. & Christakis, Dimitris G., 2022. "Dynamic modeling of combined concentrating solar tower and parabolic trough for increased day-to-day performance," Applied Energy, Elsevier, vol. 323(C).
    4. Georgios E. Arnaoutakis & Georgia Kefala & Eirini Dakanali & Dimitris Al. Katsaprakakis, 2022. "Combined Operation of Wind-Pumped Hydro Storage Plant with a Concentrating Solar Power Plant for Insular Systems: A Case Study for the Island of Rhodes," Energies, MDPI, vol. 15(18), pages 1-23, September.
    5. Nikolaos Chalkiadakis & Emmanuel Stamatakis & Melina Varvayanni & Athanasios Stubos & Georgios Tzamalis & Theocharis Tsoutsos, 2023. "A New Path towards Sustainable Energy Transition: Techno-Economic Feasibility of a Complete Hybrid Small Modular Reactor/Hydrogen (SMR/H2) Energy System," Energies, MDPI, vol. 16(17), pages 1-20, August.

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