Τα μέταλλα που χρησιμοποιούνται στις ανανεώσιμες πηγές ενέργειας και τα κοιτασματά τους = The metals in renewable energy sources and their deposits.
Περίληψη
Ως εκ τούτου, αυτό το έργο χρησιμεύει ως ένας περιεκτικός οδηγός, καλώντας τους αναγνώστες να αναλογιστούν την περίπλοκη συνέργεια μεταξύ των μετάλλων και του τομέα των ανανεώσιμων πηγών ενέργειας, εμπνέοντας τελικά μια βαθύτερη εκτίμηση για τον κεντρικό ρόλο των μετάλλων στη διαμόρφωση ενός πιο πράσινου και πιο βιώσιμου ενεργειακού τοπίου.
As the world today faces the urgent need to combat climate change and reduce its dependence on finite fossil fuels, the exploration and utilization of renewable energy sources have gained unprecedented momentum. Central to this green energy revolution are metals - often concealed within the intricate components of renewable energy systems. This dissertation, therefore, aims to delve into the in-depth interaction between metals and renewable energy sources, shedding light on their central roles, applications, and challenges. As a result, this work serves as a comprehensive guide, inviting readers to contemplate the intricate synergy between metals and the renewable energy sector, ultimately inspiring a deeper appreciation for the pivotal role of metals in shaping a greener and more sustainable energy landscape.
Πλήρες Κείμενο:
PDFΑναφορές
Ang, Τ., Salem, Μ., Kamarol, Μ., Shekhar, Η., Nazari, Μ. & Prabaharan, Ν. (2022). A comprehensive study of renewable energy sources: Classifications, challenges, and suggestions. Energy Strategy Reviews, 43, 1-27.
Bakane, P. A. (2013). Overview of extraction of mineral/ metals with the help of geothermal fluid. Proceedings, 38th Workshop on Geothermal Reservoir Engineering Stanford University.
Barbier, E. (2022). Geothermal energy technology and status: an overview. Renewable and Sustainable Energy Reviews, 6, (1-2), 3-65.
Βασίλας, Ε. (2020). Μελέτη Μικρών Υδροηλεκτρικών Έργων και εφαρμογή στην Τιροθέα Φθιώτιδας (ΜΥΗΕ Βελίτσας, Ρέμα Ξεριές. Διπλωματική Εργασία. Αθήνα: ΕΜΠ.
Blanco, M. I. (2009). The economics of wind energy. Renewable and Sustainable Energy Reviews, 13 (6-7), 1372-1382.
Bourcier, W. L., Lin, M. & Nix, g. (2005). Recovery of Minerals and Metals from Geothermal Fluids. UCRL – CONF.
Buckert, M., Schuler, D. & Bleher, D. (2009). Critical Metals for Future Sustainable Technologies and their Recycling Potential. Nairobi: UNEP.
Davidsson, S., Hook, M. & Wall, G. (2012). A review of life cycle assessments on wind energy systems. International Journal of Life Cycle Assessment, 17, 729-742.
Dushyantha, N., Batapola, B., Ilankoon, I., Rohitha, S., Premasiri, R., Abeysinghe, B., Ratnayake, N. & Dissanayake, K. (2020). The story of rare earth elements (REEs): Occurrences, global distribution, genesis, geology, mineralogy, and global production. Ore Geology Reviews, 122, 1-22.
Eliasson, B. J. (2001). Metal – insulator – metal diodes for solar energy conversation. USA: UMI.
Fang, Y., Ma, Y., Zheng, M., Yang, P., Asiri, A. & Wang, X. (2018). Metal-organic frameworks for solar energy conversion by photoredox catalysis. Coordination Chemistry Reviews, 373, 83-115.
Fridleifsson, Ι. Β. (2001). Geothermal energy for the benefit of the people. Renewable and Sustainable Energy Reviews, 5 (3), 299-312.
Goetzberger, A., Knobloch, J. & Vob, B. (2014). Crystalline Silicon Solar Cells. USA: John Wiley & Sons, Ltd.
Grandell, L. & Hook, M. (2015). Assessing Rare Metal Availability Challenges for Solar Energy Technologies. Sustainability, 7 (9), 11818-11837.
Guney, M. S. (2016). Solar power and application methods. Renewable and Sustainable Energy Reviews, 57, 776-785.
Herbert, G., Iniyan, S., Sreevalsan, S. & Rajapandian, S. (2007). A review of wind energy technologies. Renewable and Sustainable Energy Reviews, 11 (6), 1117-1145.
Κατσέπα, Α. (2017). Αέναες Πηγές Ενέργειας. Αιολική Ενέργεια – Φωτοβολταϊκά. Νέα Μηχανιώνα: A.E.N. Μακεδονίας.
Kayan, T. & Hoshan, P. (2005). Corrosion and Material Selection for Geothermal Systems. Proceedings World Geothermal Congress, Antalya, Turkey.
Kaygusuz, K. (2002). Sustainable Development of Hydroelectric Power. Energy Sources, 24 (9), 803-815.
Killingtveit, A. (2014). Hydroelectric Power. In: T. M. Letcher (ed.), Future Energy (pp. 453-470). Amsterdam: Elsevier.
Kumari, A., Sinha, M. K., Pramanik, S. & Sahu, K. (2018). Recovery of rare earths from spent NdFeB magnets of wind turbine: Leaching and kinetic aspects. Waste Management, 75, 486-498.
Letcher, T. M. (2014). Future Energy. Amsterdam: Elsevier.
Lo, Y., Cheng, C., Han, Y.-L., Chen, B.-Y. & Chang, J.-S. (2014). Recovery of high-value metals from geothermal sites by biosorption and bioaccumulation. Bioresource Technology, 160, 182-190.
Lohman, L. (2009). Climate as Investment. Development and Change, 40 (6), 1063-1083.
Lumley, R. (2010). Fundamentals of Aluminium Metallurgy: Production, Processing and Applications. UK: Woodhead Publishing.
Luque, A. & Hegedus, S. (2003). Handbook of Photovoltaic Science and Engineering. USA: John Wiley & Sons, Ltd.
Maradin, D. (2021). Advantages and disadvantages of renewable energy sources utilization. International Journal of Energy Economics and Policy, 11 (3), 176-183.
Μέλφος, Β. & Βουδούρης, Π. (2022). Κοιτάσματα της Ελλάδας. Κάλλιπος, Ανοικτές Ακαδημαϊκές Εκδόσεις.
Morgado, D., Troja, N., Kadyrzhanova, A. & Samyel, D. (2020). Hydropower Modernization Needs in Asia. AIIB, 1, 1-22.
Μπότσα, Π. Δ. (2020). Μελέτη του αιολικού δυναμικού της Νάξου. Διπλωματική Εργασία. Αθήνα: Πανεπιστήμιο Δυτικής Αττικής.
Necib, S., Diomidis, N. & Keech, P. (2017). Corrosion of carbon steel in clay environments relevant to radioactive waste geological disposals. Swiss J Geosci, 110, 329-342.
Nogara, J. & Zarrouk, S. (2018). Corrosion in geothermal environment Part 2: Metals and alloys. Renewable and Sustainable Energy Reviews, 82 (1), 1347-1363.
Olabi, A. G. & Abdelkareem, M. A. (2022). Renewable energy and climate change. Renewable and Sustainable Energy Reviews, 158, 1-17.
Olabi, A. G., Wilberforce, T., Elsaid, K., Salameh, T., Sayed, E. T., Husain, K. S. & Abdelkareem, M. A. (2021). Selection Guidelines for Wind Energy Technologies. Energies, 14, 3244
Peng, K. & Lee, S. (2010). Silicon Nanowires for Photovoltaic Solar Energy Conversion. Wiley, 23 (2), 198-215.
Sampaio, P. G. & Gonzalez, M. O. (2016). Photovoltaic solar energy: Conceptual framework. Renewable and Sustainable Energy Reviews, 74, 590-601.
Sakhrieh, A. & Al-Ghandoor, A. (2013). Experimental investigation of the performance of five types of solar collectors. Energy Conversion and Management, 65, 715-720.
Smil, V. (2013). Making the Modern World - Materials and Dematerialization. USA: John Wiley & Sons, Ltd.
Stegen, K. S. (2015). Heavy rare earths, permanent magnets, and renewable energies: An imminent crisis. Energy Policy, 79, 1-8.
Τσαουσίδης, Τ. (2021). Περιβαλλοντικές Επιπτώσεις των Ανανεώσιμων Πηγών Ενέργειας. Διπλωματική Εργασία. Θεσσαλονίκη: Αριστοτέλειο Πανεπιστήμιο.
Wang, Q. (2010). Effective policies for renewable energy - the example of China's wind power - lessons for China's photovoltaic power. Renewable and Sustainable Energy Reviews, 14 (2), 702-712.
Yah, N. F., Oumer, A. N. & Idris, M. S. (2017). Small scale hydropower as a source of renewable energy in Malaysia: A review. Renewable and Sustainable Energy Reviews, 72, 228-239.
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