9 results on '"Karkalis, Christos"'
Search Results
2. Mineralogical and Geochemical Properties of Greek Evaporites, Associated with Their Prospects of Industrial Use †.
- Author
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Badouna, Ioanna, Neokosmidis, Spiros, Stamatakis, Michael, Karkalis, Christos, Koukouzas, Nikolaos, and Koutsovitis, Petros
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MINERALS ,GEOCHEMICAL cycles ,EVAPORITES ,LOGISTICS ,GYPSUM - Abstract
Greece is considered as one of the most common producers of gypsum-anhydrite in Europe. The low content of impurities of these evaporite minerals, their big reserves and the low cost of logistics costs makes them exploitable and applicable for a range of industrial uses. The current study endeavors to present the petrographic, mineralogical, geochemical and qualitative features of evaporite samples from seven selected localities of western Greece (Zakynthos Island, Filiates-Thesprotia, Etoloakarnania and Kyllini region) and Crete Island. The studied evaporitic rocks are classified as a mixture of gypsum and anhydrite, where gypsum predominates. Other minerals present in minor amounts include celestite ± calcite ± dolomite ± magnesite ± sanidine and quartz. Celestite (SrSO
4 ) was detected in all studied samples. The highest celestite value (13.5%) corresponds to the region of Filiates, indicating that this deposit is prosperous for further research and potential Sr exploitation. Significant focus is also given on the assessment of the evaporite whiteness with respect to their mineralogical and geochemical composition. The aforementioned data aim to serve the dynamic Greek calcium sulphate industry by enhancing the evaporites' prospects of industrial use, providing potential applications for those not already exploited. [ABSTRACT FROM AUTHOR]- Published
- 2023
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3. Current CO 2 Capture and Storage Trends in Europe in a View of Social Knowledge and Acceptance. A Short Review.
- Author
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Koukouzas, Nikolaos, Christopoulou, Marina, Giannakopoulou, Panagiota P., Rogkala, Aikaterini, Gianni, Eleni, Karkalis, Christos, Pyrgaki, Konstantina, Krassakis, Pavlos, Koutsovitis, Petros, Panagiotaras, Dionisios, and Petrounias, Petros
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CARBON sequestration ,SOCIAL acceptance ,TECHNOLOGICAL innovations ,CARBON dioxide ,TRUST - Abstract
Carbon dioxide (CO
2 ) has reached a higher level of emissions in the last decades, and as it is widely known, CO2 is responsible for numerous environmental problems, such as climate change. Thus, there is a great need for the application of CO2 capture and storage, as well as of CO2 utilization technologies (CCUS). This review article focuses on summarizing the current CCUS state-of-the-art methods used in Europe. Special emphasis has been given to mineralization methods/technologies, especially in basalts and sandstones, which are considered to be suitable for CO2 mineralization. Furthermore, a questionnaire survey was also carried out in order to investigate how informed about CO2 issues European citizens are, as well as whether their background is relative to their positive or negative opinion about the establishment of CCUS technologies in their countries. In addition, social acceptance by the community requires contact with citizens and stakeholders, as well as ensuring mutual trust through open communication and the opportunity to participate as early as possible in the development of actions and projects related to CO2 capture and storage, at all appropriate levels of government internationally, as citizens need to understand the benefits from such new technologies, from the local to the international level. [ABSTRACT FROM AUTHOR]- Published
- 2022
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4. Pervasive Listwaenitization: The Role of Subducted Sediments within Mantle Wedge, W. Chalkidiki Ophiolites, N. Greece.
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Sideridis, Alkiviadis, Koutsovitis, Petros, Tsikouras, Basilios, Karkalis, Christos, Hauzenberger, Christoph, Zaccarini, Federica, Tsitsanis, Pavlos, Lazaratou, Christina Vasiliki, Skliros, Vasilios, Panagiotaras, Dionisios, Papoulis, Dimitrios, and Hatzipanagiotou, Konstantin
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OPHIOLITES ,MAGNESITE ,SEDIMENTS ,CLAY minerals ,PERIDOTITE - Abstract
Listwaenitization processes have significantly altered the mantle section of the West Chalkidiki ophiolites, generating the second largest magnesite deposit in Greece. Although research studies have been conducted in the region, the post-magmatic processes, and especially the geotectonic settings under which listwaenitization took place, remain unclear. In this study, minerals and rocks were studied applying XRD, clay fraction, SEM, EMPA, ICP-MS, INAA, LA-ICP-MS, and thermodynamic modeling. The results revealed that alteration processes significantly affected the mantle wedge peridotite protoliths leading to the following chemical changes (a) SiO
2 increase with decreasing MgO, (b) Cs, Pb, As, and V enrichments, (c) limited alteration of magnesiochromite hosted within listwaenitized chromitites and (d) enrichment in PPGE and Au in listwaenitized chromitites and desulfurized laurite. Alteration was induced by fluids deriving from subducted Mesozoic sediments, represented by the Prinochori Formation or chemically similar formations. The final product of completely silicified peridotite (silica listwaenite) is thermodynamically stable in Earth-surface conditions, with dolomite and phyllosilicates transforming into clay minerals. Based on detailed petrographical observations, peridotites were subjected to serpentinization, and subsequently, serpentine interacted with CO2 , silica and calcium-bearing fluids, leading to its transformation into amorphous rusty-silica mass and/or tremolite. [ABSTRACT FROM AUTHOR]- Published
- 2022
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5. Geochemical Occurrence of Rare Earth Elements in Mining Waste and Mine Water: A Review.
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Pyrgaki, Konstantina, Gemeni, Vasiliki, Karkalis, Christos, Koukouzas, Nikolaos, Koutsovitis, Petros, and Petrounias, Petros
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MINE waste ,RARE earth metals ,MINE water ,MINES & mineral resources ,SEWAGE ,HYDROTHERMAL deposits ,ORE deposits - Abstract
Μining waste, processing by-products and mine water discharges pose a serious threat to the environment as in many cases they contain high concentrations of toxic substances. However, they may also be valuable resources. The main target of the current review is the comparative study of the occurrence of rare earth elements (REE) in mining waste and mine water discharges produced from the exploitation of coal, bauxite, phosphate rock and other ore deposits. Coal combustion ashes, bauxite residue and phosphogypsum present high percentages of critical REEs (up to 41% of the total REE content) with ΣREY content ranging from 77 to 1957.7 ppm. The total REE concentrations in mine discharges from different coal and ore mining areas around the globe are also characterised by a high range of concentrations from 0.25 to 9.8 ppm and from 1.6 to 24.8 ppm, respectively. Acid mine discharges and their associated natural and treatment precipitates seem to be also promising sources of REE if their extraction is coupled with the simultaneous removal of toxic pollutants. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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6. Carbon Capture, Utilisation and Storage as a Defense Tool against Climate Change: Current Developments in West Macedonia (Greece).
- Author
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Koukouzas, Nikolaos, Tyrologou, Pavlos, Karapanos, Dimitris, Carneiro, Júlio, Pereira, Pedro, de Mesquita Lobo Veloso, Fernanda, Koutsovitis, Petros, Karkalis, Christos, Manoukian, Eleonora, and Karametou, Rania
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CLIMATE change ,GEOLOGICAL formations ,STORAGE - Abstract
In West Macedonia (Greece), CO
2 accounts as one of the largest contributors of greenhouse gas emissions related to the activity of the regional coal power plants located in Ptolemaida. The necessity to mitigate CO2 emissions to prevent climate change under the Paris Agreement's framework remains an ongoing and demanding challenge. It requires implementing crucial environmentally sustainable technologies to provide balanced solutions between the short-term needs for dependency on fossil fuels and the requirements to move towards the energy transition era. The challenge to utilise and store CO2 emissions will require actions aiming to contribute to a Europe-wide CCUS infrastructure. The Horizon 2020 European Project "STRATEGY CCUS "examines the potential for CO2 storage in the Mesohellenic Trough from past available data deploying the USDOE methodology. Research results show that CO2 storage capacities for the Pentalofos and Eptachori geological formations of the Mesohellenic Trough are estimated at 1.02 and 0.13 Gt, respectively, thus providing the potential for the implementation of a promising method for reducing CO2 emissions in Greece. A certain storage potential also applies to the Grevena sub-basin, offering the opportunity to store any captured CO2 in the area, including other remote regions. [ABSTRACT FROM AUTHOR]- Published
- 2021
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7. Potential Sites for Underground Energy and CO2 Storage in Greece: A Geological and Petrological Approach.
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Arvanitis, Apostolos, Koutsovitis, Petros, Koukouzas, Nikolaos, Tyrologou, Pavlos, Karapanos, Dimitris, Karkalis, Christos, and Pomonis, Panagiotis
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GREENHOUSE gases ,UNDERGROUND areas ,ENERGY storage ,ABANDONED mines ,HEAT ,ENTHALPY - Abstract
Underground geological energy and CO
2 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 in fourteen aquifers (throughout North and South Greece) and three abandoned mines of Central Greece. Results indicate that aquifers present higher average total heat energy values (up to ~6.05 × 106 MWh(th) ), whereas abandoned mines present significantly higher average area heat energy contents (up to ~5.44 × 106 MWh(th) ). Estimations indicate that the Sappes, Serres and Komotini aquifers could cover the space heating energy consumption of East Macedonia-Thrace region. Underground gas storage was investigated in eight aquifers, four gas fields and three evaporite sites. Results indicate that Prinos and South Kavala gas fields (North Greece) could cover the electricity needs of households in East Macedonia and Thrace regions. Hydrogen storage capacity of Corfu and Kefalonia islands is 53,200 MWh(e) . These values could cover the electricity needs of 6770 households in the Ionian islands. Petrographical and mineralogical studies of sandstone samples from the Mesohellenic Trough and Volos basalts (Central Greece) indicate that they could serve as potential sites for CO2 storage. [ABSTRACT FROM AUTHOR]- Published
- 2020
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8. Petrological and Geochemical Properties of Greek Carbonate Stones, Associated with Their Physico-Mechanical and Aesthetic Characteristics.
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Badouna, Ioanna, Koutsovitis, Petros, Karkalis, Christos, Laskaridis, Konstantinos, Koukouzas, Nikolaos, Tyrologou, Pavlos, Patronis, Michalis, Papatrechas, Christos, and Petrounias, Petros
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BUILDING stones ,STONE ,WASTE products ,CARBONATES ,AESTHETICS ,MINERAL properties - Abstract
Greece is considered amongst the world's top marble producers in the global carbonate ornamental stone market. Selected Greek carbonate ornamental stones considered in our study suite are characterized by their distinctive and in some cases unique appearance, having a significant impact on their commercial value. Their wide range of colour varieties and their physico-mechanical properties are closely related to their mineral assemblage, chemical constitution, petrographic properties, structural defects, which in turn depend highly upon their metamorphic/diagenetic grade and in some cases hydrothermal processes that affected them. This study endeavors to feature the petrographic, mineralogical and geochemical properties of the main Greek carbonate ornamental stones from selected localities and their by-product waste material used as aggregates. The documented data aims to serve a better understanding of the dynamic Greek marble industry by relating their mineral and chemical properties with their physico-mechanical and aesthetic characteristics. [ABSTRACT FROM AUTHOR]
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- 2020
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9. Potential for Mineral Carbonation of CO2 in Pleistocene Basaltic Rocks in Volos Region (Central Greece).
- Author
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Koukouzas, Nikolaos, Koutsovitis, Petros, Tyrologou, Pavlos, Karkalis, Christos, and Arvanitis, Apostolos
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BASALT ,GROUNDWATER temperature ,WATER salinization ,WATER depth ,WATER sampling ,MINERALS ,GEOLOGICAL carbon sequestration - Abstract
Pleistocene alkaline basaltic lavas crop out in the region of Volos at the localities of Microthives and Porphyrio. Results from detailed petrographic study show porphyritic textures with varying porosity between 15% and 23%. Data from deep and shallow water samples were analysed and belong to the Ca-Mg-Na-HCO
3 -Cl and the Ca-Mg-HCO3 hydrochemical types. Irrigation wells have provided groundwater temperatures reaching up to ~30 °C. Water samples obtained from depths ranging between 170 and 250 m. The enhanced temperature of the groundwater is provided by a recent-inactive magmatic heating source. Comparable temperatures are also recorded in adjacent regions in which basalts of similar composition and age crop out. Estimations based on our findings indicate that basaltic rocks from the region of Volos have the appropriate physicochemical properties for the implementation of a financially feasible CO2 capture and storage scenario. Their silica-undersaturated alkaline composition, the abundance of Ca-bearing minerals, low alteration grade, and high porosity provide significant advantages for CO2 mineral carbonation. Preliminary calculations suggest that potential pilot projects at the Microthives and Porphyrio basaltic formations can store 64,800 and 21,600 tons of CO2 , respectively. [ABSTRACT FROM AUTHOR]- Published
- 2019
- Full Text
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