Smart Grid and Enabling Technologies. Frede Blaabjerg

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Название Smart Grid and Enabling Technologies
Автор произведения Frede Blaabjerg
Жанр Физика
Серия
Издательство Физика
Год выпуска 0
isbn 9781119422457



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Subsidence, landscape change, polluting waterways, air emissions Hydropower Change in local eco‐systems, change in weather conditions, social and cultural impacts Marine Energy Landscape change, reduction in water motion or circulation, killing of fish by blades, changes in sea eco‐system Solar Energy Soil erosion, landscape change, hazardous waste Wind Energy Noises in the area, landscape change, soil erosion, killing of birds by blades

      1  1 “BP Statistical Review of World Energy”, June 2017, https://www.connaissancedesenergies.org/sites/default/files/pdf‐actualites/bp‐statistical‐review‐of‐world‐energy‐2017‐full‐report.pdf (accessed on 30 June 2017).

      2  2 Exxon Mobil (2017). 2017 Outlook for Energy: A View to 2040. http://oilproduction.net/files/2017_Outlook_for_Energy_highlights.pdf (accessed 30 June 2017).

      3  3 BP (2017). BP Energy outlook, 2017 edition. https://safety4sea.com/wp‐content/uploads/2017/01/BP‐Energy‐Outlook‐2017_01.pdf (accessed 1 February 2021).

      4  4 EIA (2017). Annual Energy Outlook 2017 with projections to 2050. http://www.eia.gov/aeo (accessed 1 July 2017).

      5  5 Tromly, K. (2001). Renewable Energy: An Overview. Golden, CO (US): National Renewable Energy Laboratory.

      6  6 Brown, A., Müller, S., and Dobrotková, Z. (2011). Renewable Energy: Markets and Prospects by Technology. International Energy Agency Information Paper.

      7  7 Bull, S.R. (August 2001). Renewable energy today and Tomorrow. Proceedings of the IEEE 89 (8): 1216–1226.

      8  8 European Renewable Energy Council (2010). RE‐thinking 2050. http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.638.5765&rep=rep1&type=pdf (accessed 10 February 2021).

      9  9 Ellabban, O., Abu‐Rub, H., and Blaabjerg, F. (2014). Renewable energy resources: current status, future prospects and their enabling technology. Renewable and Sustainable Energy Reviews 39: 748–764.

      10 10 “Deploying Renewables 2011”, https://webstore.iea.org/deploying‐renewables‐2011‐best‐and‐future‐policy‐practice (accessed 1 July 2017).

      11 11 IRENA (2017). RE thinking Energy. www.irena.org (accessed 1 July 2017).

      12 12 REN21 (2020). Renewables 2020 Global Status Report. https://www.ren21.net/wp‐content/uploads/2019/05/gsr_2020_full_report_en.pdf (accessed 1 July 2020).

      13 13 Srirangan, K., Akawi, L., Moo‐Young, M., and Chou, C.P. (December 2012). Towards sustainable production of clean energy carriers from biomass resources. Applied Energy 100: 172–186.

      14 14 Sriram, N. and Shahidehpour, M. (12‐16 June 2005). Renewable biomass energy. IEEE Power Engineering Society General Meeting 1: 612–617.

      15 15 Reddy, B.Y. and Srinivas, T. (2013). Biomass based Energy Systems to Meet the Growing Energy Demand with Reduced Global Warming: Role of Energy and Exergy Analyses. International Conference on Energy Efficient Technologies for Sustainability (ICEETS), Nagercoil, India (10–12 April 2013). IEEE.

      16 16 Hall, D.O. and Scrase, J.I. (1998). Will biomass be the environmentally friendly fuel of the future? Biomass and Bioenergy 15: 357–367.

      17 17 Klass, D.L. (2004). Biomass for renewable energy and fuels. In: Encyclopedia of Energy, vol. 1 (ed. C. Cleveland), 193–212. Elsevier.

      18 18 Ruiz, J.A., Juárez, M.C., Morales, M.P. et al. (2013). Biomass gasification for electricity generation: review of current technology barriers. Renewable and Sustainable Energy Reviews 18: 174–183.

      19 19 IRENA (2015). Renewable Power Generation Costs in 2014. https://www.irena.org/publications/2015/Jan/Renewable‐Power‐Generation‐Costs‐in‐2014 (accessed 10 February 2021).

      20 20 IRENA (2012). Renewable Energy Cost Analysis ‐ Biomass for Power Generation. https://www.irena.org/publications/2012/Jun/Renewable‐Energy‐Cost‐Analysis‐‐‐Biomass‐for‐Power‐Generation (accessed 10 February 2021).

      21 21 Hammons, T.J. (2003). Geothermal power generation worldwide. IEEE Bologna Power Tech Conference Proceedings, Bologna, Italiy (23–26 June 2003). IEEE.

      22 22 Fridleifsson, I.B. (2001). Geothermal energy for the benefit of the people. Renewable and Sustainable Energy Reviews 5: 299–312.

      23 23 Yan, Q., Wang, A., Wang, G. et al. (2010). Resource Evaluation of Global Geothermal Energy and the Development Obstacles. 2010 International Conference on Advances in Energy Engineering, Beijing, China (19–20 June 2010). IEEE.

      24 24 Sheth, S. and Shahidehpour, M. (June 2004). Geothermal energy in power systems. IEEE Power Engineering Society General Meeting 2: 1972–1977.

      25 25 Geothermal: International Market Overview Report, May 2012, https://repit.files.wordpress.com/2012/12/2012‐gea_international_overview.pdf.

      26 26 Matek, B. (March 2016). Annual U.S. & Global Geothermal Power Production Report. Geothermal Energy Association.

      27 27 Bertani, R. (2015). Geothermal Power Generation in the World 2010–2014 Update Report. Proceedings World Geothermal Congress 2015, Melbourne, Australia (19–24 April 2015). IGA.

      28 28 Năstase, G., Şerban, A., Năstase, A.F. et al. (December 2017). Hydropower development in Romania. A review from its beginnings to the present. Renewable and Sustainable Energy Reviews 80: 297–312.

      29 29 Cambridge University Press (2012). Renewable Energy Sources and Climate Change Mitigation. https://www.cambridge.org/gb/academic/subjects/earth‐and‐environmental‐science/climatology‐and‐climate‐change/renewable‐energy‐sources‐and‐climate‐change‐mitigation‐special‐report‐intergovernmental‐panel‐climate‐change?format=PB (accessed 10 February 2021).

      30 30 “Hydropower and the Environment: Present Context and Guidelines for Future Action”, May 2000, IEA Hydropower Agreement, http://www.ieahydro.org/reports/HyA3S5V2.pdf.

      31 31 Berga, L. (2016). The role of hydropower in climate change mitigation and adaptation: a review. Engineering 2 (3): 313–318.

      32 32 World energy council (2016). World Energy Resources 2016.