2020
DOI: 10.3390/en13112707
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Potential Sites for Underground Energy and CO2 Storage in Greece: A Geological and Petrological Approach

Abstract: Underground geological energy and CO2 storage contribute to mitigation of anthropogenic greenhouse-gas emissions and climate change effects. The present study aims to present specific underground energy and CO2 storage sites in Greece. Thermal capacity calculations from twenty-two studied aquifers (4 × 10−4–25 × 10−3 MJ) indicate that those of Mesohellenic Trough (Northwest Greece), Western Thessaloniki basin and Botsara flysch (Northwestern Greece) exhibit the best performance. Heat capacity was investigated … Show more

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Cited by 21 publications
(19 citation statements)
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“…CAES systems can reach lifetime cycles of up to 100,000 equivalent full cycles but with fairly poor depth of discharge potential. In Albania, many mines, caverns, and exploited gas wells can be used to store secondary energy in the form of compressed air [39], as shown in the schematic diagram in Figure 17.…”
Section: Discussionmentioning
confidence: 99%
“…CAES systems can reach lifetime cycles of up to 100,000 equivalent full cycles but with fairly poor depth of discharge potential. In Albania, many mines, caverns, and exploited gas wells can be used to store secondary energy in the form of compressed air [39], as shown in the schematic diagram in Figure 17.…”
Section: Discussionmentioning
confidence: 99%
“…Although the Pentalofos and Eptahori formations are considered as reservoirs and the overlying Tsotyli formation as a seal rock based on their characteristics [16], important downsides do exist. According to [17] these reservoir formations are turbidite fan delta deposits, with a net to gross (N/G) reaching 40% [18].…”
Section: Mesohellenic Troughmentioning
confidence: 99%
“…Many studies [15,16] have examined the MHT for its CO 2 storage potential. Pressure and temperature data, as well as formation depths, were provided in these studies, suggesting an area with high CO 2 storage potential.…”
Section: Mesohellenic Troughmentioning
confidence: 99%
“…Further to this, it is expected that cement production will vastly increase by within the next 20 years due to the increasing demand in cement from developing countries. Thus, solutions must be implemented to reduce CO 2 emissions because this it may likely put the Paris Agreement's global climate targets in jeopardy (e.g., [41,42]). The production of Portland cement leaves a notable carbon footprint due to the use of fossil fuels to create the necessary intense heating but more important, from the chemical decomposition of limestone that releases large amounts of CO 2 as a byproduct.…”
Section: Suppressing Co 2 Emissions By Use Of Slag In Cement Manufactmentioning
confidence: 99%