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Planning and building 100% renewable energy infrastructure with the technologies of the future

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Języki publikacji
EN
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EN
When and why humanity faced the Energy Problem, it is a question. What was the problem? How are we trying to handle it since the beginning? Do we have enough resources of renewable energy? Which technologies are mature enough to contribute and take part in the solution? Are they available in the market with compatible prices? What is the role of storage for dealing with the intermittent nature of renewable energy resources? Why do we need to build, operate, integrate and manage energy efficiency, storage and renewable energy in harmony with nature by smart grids in sustainable cities of the future? Is transition to 100% Renewable Energy the solution? If so what else is required to reach this target? What are we going to do with the existing system? Which methodologies and techniques we need to use to realize this transition with minimum costs and externalities? How are we going to justify this transition? Is it only a technology problem? What parameters we need to consider when we are trying to live in harmony with nature? How are we going to readapt human beings to be satisfied with minimum ecological footprint societies? Can human beings build democratic societies where energy efficiency and 100% renewable energy is respected and beneficial for each individual of the communities? Transition to 100% renewables requires planning the future with the information of the future. For reaching this target we need to carry on a multidisciplinary approach to understand and take into consideration the basic constraints and requirements of the living space we are sharing all together in the atmosphere. How to Speed-up the Global Transition to 100% Renewable Energy?
Twórcy
autor
  • Marmara University, Department of Mechanical Engineering, Energy Section Göztepe Campus, Kadiköy, Istanbul, Turkey tel.: +90 533 3955839, fax: +90 216 5891616
Bibliografia
  • [1] Evolution of the atmosphere, https://www.bbc.com/education/guides/zt6g87h/revision/4.
  • [2] What is the average global temperature now? https://www2.ucar.edu/climate/faq/whataverage-global-temperature-now.
  • [3] The Great Smog of London, environmental disaster, England, United Kingdom [1952], https://www.britannica.com/event/Great-Smog-of-London, 1952.
  • [4] Energy transitions – Opportunities and challenges of our time an interactive exhibition. Project of the Deutsches Museum, https://www.ecsite.eu/sites/default/files/170607_energiewenden_deutsches_museum_web.pdf.
  • [5] Climate change: How do we know? https://climate.nasa.gov/evidence/.
  • [6] Synergies between renewable energy and energy efficiency, http://www.irena.org/publications/2017/Aug/Synergies-between-renewable-energy-and-energy-efficiency, 2017.
  • [7] Perez, M., Perez, I. E. A., A fundamental look at supply side energy reserves for the planet, SHC Task 46: Solar Resource Assessment and Forecasting, November 2015, https://www.iea-shc.org/data/sites/1/publications/2015-11-A-Fundamental-Look-at-Supply-Side-Energy-Reserves-for-the-Planet.pdf, 2015.
  • [8] Christiansson, L., Diffusion and learning curves of renewable energy technologies, IIASA Working Paper, WP-95-126, IIASA, Laxenburg, Austria 1995.
  • [9] Azevedo, I., Jaramillio, P., Rubina, E., Yehb, S., Technology learning curves and the future cost of electric power generation technology, EPRI 18th Annual Energy and Climate Change Research Seminar Washington, DC May 22, 2013.
  • [10] PRISM 2.0: Modeling technology learning for electricity supply technologies, EPRI, 3002000871, Palo Alto, CA 2013.
  • [11] Renewables 2018 Global Status Report, http://www.ren21.net/gsr-2018/.
  • [12] Renewable Energy Auctions Analysing 2016, Executive Summary, IRENA, 2017, http://www.irena.org/documentdownloads/publications/irena_reauctions_summary_2017.pdf, 2017.
  • [13] García-Olivares, A., Solé, J., Osychenko, O., Transportation in a 100% renewable Energy system, Energy Conversion and Management, Vol. 158, pp. 266-285, 2018.
  • [14] Renewable city strategy, 2015-2050, City of Vancouver, Canada, https://vancouver.ca/files/cov/renewable-city-strategy-booklet-2015.pdf, 2015.
  • [15] Winters, M., Lerner, M., Teschke, K.,Brauer, M., Bike score: Applying research to build webbased tools to promote cycling, http://cyclingincities-spph.sites.olt.ubc.ca/files/2012/06/WintersVelocityBikeScore.pdf, 2012.
  • [16] Baker, D. R., Diablo Canyon closure shows California’s power grid is changing fast, https://www.sfchronicle.com/business/article/Diablo-Canyon-closure-shows-California-spower-8337353.php, 2016.
  • [17] Ram, M., Bogdanov, D., Oyewo, A., Aghahosseini, A., Gulagi, A., Child, M., Fell, H.-J., Breyer, C., Global energy system based on 100% renewable energy – power sector, Study by Lappeenrante University of Technology and Energy Watch Group Lappeenrante Berlin, November 2017.
  • [18] 100% RE building blocks: A practical toolkit for a sustainable transition to 100% renewable energy, www.go100re.net.
  • [19] Renewable energy policies in a time of transition, Report written jointly by IRENA, IEA and REN21, under the guidance of Rabia Ferroukhi (IRENA), Paolo Frankl (IEA) and Christine Lins (REN21), 2018.
  • [20] Advancing the Global Renewable Energy Transition: Highlights of the REN21 Renewables 2017 Global Status Report in Perspective, http://www.ren21.net/gsr-2018/, 2018.
  • [21] Uyar, T. S. (Ed.), Towards 100% renewable energy: techniques, costs and regional casestudies, Springer International Publishing, Switzerland 2017.
  • [22] Uyar, T. S., Beşikci, D., Integration of hydrogen energy systems into renewable Energy systems for better design of 100% renewable energy communities, Int. J. Hydrog. Energy, Vol. 42, pp. 2453-2456, 2017.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
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