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Low-enthalpy geothermal resources for electricity production: A demand-side management study for intelligent communities

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  • Xydis, George A.
  • Nanaki, Evanthia A.
  • Koroneos, Christopher J.

Abstract

The geological conditions in Greece contributed to the creation of important low-enthalpy geothermal energy resources (LEGERs). The resources are divided into low, medium and high enthalpy, or temperature, based on criteria that are generally based on the energy content of the fluid. LEGERs are those sources of the hot water whose temperature is between 25 and 100°C, which are used for heating residences and in the agricultural or industrial sector. The investigation for the exploitation of low-enthalpy geothermal fluids, which began around 1980, intensified in the last two decades. The low-enthalpy geothermal potential in Greece is rather significant as most of the geothermal fields have been found in regions with favourable developmental conditions, and it seems that they do not present serious environmental or technical exploitation problems. LEGER areas are abundant in Greece, mainly in the eastern and northern part of the country, as well as in many of the Aegean Islands. The aim of this work is to review the options for managing wind load by using low-enthalpy geothermal energy for electricity (through heat pump utilisation) according to the local energy demand.

Suggested Citation

  • Xydis, George A. & Nanaki, Evanthia A. & Koroneos, Christopher J., 2013. "Low-enthalpy geothermal resources for electricity production: A demand-side management study for intelligent communities," Energy Policy, Elsevier, vol. 62(C), pages 118-123.
    • Handle: RePEc:eee:enepol:v:62:y:2013:i:c:p:118-123
    DOI: 10.1016/j.enpol.2013.08.012
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    References listed on IDEAS

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    Cited by:

    1. George A Xydis & Katerina Kremastioti & Maria Panagiotidou, 2022. "Wind energy and the historic environment: A business-driven symbiosis approach," Energy & Environment, , vol. 33(3), pages 582-598, May.
    2. Shafiullah, Md & Rahman, Syed Masiur & Mortoja, Md. Golam & Al-Ramadan, Baqer, 2016. "Role of spatial analysis technology in power system industry: An overview," Renewable and Sustainable Energy Reviews, Elsevier, vol. 66(C), pages 584-595.
    3. Santamarta, Juan C. & García-Gil, Alejandro & Expósito, María del Cristo & Casañas, Elías & Cruz-Pérez, Noelia & Rodríguez-Martín, Jesica & Mejías-Moreno, Miguel & Götzl, Gregor & Gemeni, Vasiliki, 2021. "The clean energy transition of heating and cooling in touristic infrastructures using shallow geothermal energy in the Canary Islands," Renewable Energy, Elsevier, vol. 171(C), pages 505-515.
    4. George Xydis & Luca Pagliaricci & Živilė Paužaitė & Vygintas Grinis & Gyula Sallai & Peter Bakonyi & Radoslav Vician, 2021. "SMARTIES Project: The Survey of Needs for Municipalities and Trainers for Smart Cities," Challenges, MDPI, vol. 12(1), pages 1-10, May.
    5. Ocetkiewicz, Iwona & Tomaszewska, Barbara & Mróz, Anna, 2017. "Renewable energy in education for sustainable development. The Polish experience," Renewable and Sustainable Energy Reviews, Elsevier, vol. 80(C), pages 92-97.
    6. Eyerer, S. & Schifflechner, C. & Hofbauer, S. & Bauer, W. & Wieland, C. & Spliethoff, H., 2020. "Combined heat and power from hydrothermal geothermal resources in Germany: An assessment of the potential," Renewable and Sustainable Energy Reviews, Elsevier, vol. 120(C).
    7. Zhang, Tao & Li, Yiteng & Chen, Yin & Feng, Xiaoyu & Zhu, Xingyu & Chen, Zhangxing & Yao, Jun & Zheng, Yongchun & Cai, Jianchao & Song, Hongqing & Sun, Shuyu, 2021. "Review on space energy," Applied Energy, Elsevier, vol. 292(C).

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