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Janusz Kotowicz, Łukasz Bartela and Klaudia Dubiel-Jurgaś

characteristics for storage of renewably-generated. Energy 118(2017), 156-171. [5] GE Energy. LMS100: Flexible Power. [6] GE Energy. New High Efficiency Simple Cycle Gas Turbine - GE’s LMS100TM. [7] Chmielniak T., Rusin A., Czwiertnia K,: Gas Turbines. Ossolineum, Wrocław 2001. [8] Tabari A., Khaledi H., Benisi A.H.: Comperative evaluation of advanced gas turbine cycles with modified blade cooling models. In: Proc. GT2006, ASME turbo Expo 2006: Power for Land, Sea and Air, May 8-11, 2006, Barcelona

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Tomasz Krysiński, Zbigniew Buliński and Andrzej J. Nowak

References [1] B urton T., S harpe D., J enkins N., B ossanyi E.: Wind energy handbook . John Wiley & Sons Ltd, Chicester 2001. [2] H au E.: Wind turbines. Fundamentals, technologies, application, economics, second edition . Springer-Verlag, Berlin Heidelberg 2006. [3] E ricsson S., B ernhoff H., L eijon M.: Evaluation of different turbine concepts for wind power . Renew. Sust. Energ. Rev. 12 (2008), 1419–1434. [4] I slam M.R., M ekhilef S., S aidur R.: Progress and recent trends of wind energy technology . Renew. Sust

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Magdalena Jaremkiewicz

imienia Ossolińskich, Wrocław 1995 (in Polish). Kabza Z., Kostyrko K., Zator S., Łobzowski A., Szkolnikowski W.: Room Climate Control , Agenda Wydawnicza, Pomiary Automatyka Kontrola, Warszawa 2005 (in Polish). Littler D. J., et al.: Instrumentation, Controls & Testing. Modern Power Station Practice. Pergamon Press, Oxford 1991. Childs P. R. N.: Practical Temperature Measurement , Buterworth-Heinemann, Oxford 2001. Gerashchenko O. A., Gordov A. N., Lakh V. I

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Kwasi Selassie Diaba and Kutsanedzie Felix

References Argaw, N., Foster, R. and Ellis, A. (2003) Renewable Energy for Water Pumping Applications in Rural Villages. NREL/SR-500-30361, New Mexico State University: Las Cruces, New Mexico. Available at: http://www.osti.gov/bridge (accessed 4 August 2006) Foundation for Alternative Energy (FAE) (1995). Wind Energy, Slovak non-governmental organisation committed to environmental protection. Available at: http://www.seps.sk/zp/fond/profile.html (accessed 12 February 2007 FAO (2010). Agricultural and Food Engineering Technical Report

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Robert Kasperek and Mirosław Wiatkowski

: 10.2478/aep-2013-0017. [8] Bartle A., Hallowes G. Hydroelectric power: present role and future prospects. Proc of the Inst of Civil Eng. 2005;158:28-31. [9] Directive 2009/28/EC of the European Parliament and of the Council of 23 April 2009 on the promotion of the use of energy from renewable sources and amending and subsequently repealing Directives 2001/77/EC and 2003/30/EC. [10] Frosio N. Civil works degradation: a natural evolution or an original sin? Hidroenergia 2010; Paper 6A.05; Lozanna; 2010. [11] Novak P, Moffat AIB, Nalluri C, Narayanan R

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Tadeusz Rodziewicz, Josuke Nakata, Kenichi Taira, Aleksander Zaremba and Maria Wacławek

Sphelar® technology. Proc 25th Europ Photovolt Solar Energy Conf. 2010;562-566. DOI: 10.4229/25thEUPVSEC2010-1DV.3.1 [11] Popławski T, Szeląg P, Głowiński C, Adamowicz Ł. Forecast of Electric Power Generated by the Wind Farm Using Data Clustering Method. In: Information Systems Architecture and Technology. Knowledge Based Approach to the Design, Control and Decision Support. Wrocław: Ofic Wyd Politechniki Wrocławskiej; 2013;175-184. ISBN: 978-83-7493-802-0.

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Jef Ongena

, F., & Kleidon, A. (2011). Estimating maximum global land surface wind power extractability and associated climatic consequences. Earth Syst. Dynam., 2, 1-12. 8. Jefferson, M. (2011). Energy efficiency and sustainability. In Proceedings of the 44th Session of the International Seminar on Nuclear War and Planetary Emergencies, Erice (Italy), August 19-24, 2011. 9. Frondel, M., Ritter, N., Schmidt, C. M., & Vance, C. (2010). Economic impacts from the promotion of renewable energies: The German experience. Energy Policy, 38, 4048

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Jolanta B. Królczyk, Andrzej Rezwiakow and Marek Tukiendorf

- Energetyka. Retrieved 27.03.2014 from http://energetyka.wnp.pl/g-wisniewski-ieo-wspolspalanie-zniszczylo-system-wsparcia-oze,201134_1_0_0 .html. [22] Cao Y, Pawłowski L. Effect of biofuels on environment and sustainable development. Ecol Chem Eng S. 2013;20(4):799-804. DOI: 10.5277/EPE130112. [23] Lea R. Electricity Costs: The folly of wind-power. January 2012. http://www.civitas.org.uk/ economy/electricitycosts2012.pdf. [24] Olszowiec P. The use of biofuels, biomass burning more harm than good [Wykorzystanie biopaliw, spalanie biomasy bardziej szkodzi niż pomaga

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Tadeusz Rodziewicz, Aleksander Zaremba and Maria Wacławek

_PDF&CatalogueNumber=CL-NA-16-339-EN-C . [9] Technical documentation of Sunny Boy 1100 inverter. http://files.sma.de/dl/5668/SB1100E-11-EE5000.pdf . [10] Popławski T, Szeląg P, Głowiński C, Adamowicz Ł. Forecast of Electric Power Generated by the Wind Farm Using Data Clustering Method. In: Information Systems Architecture and Technology. Knowledge Based Approach to the Design, Control and Decision Support. Wrocław: Ofic Wyd Politechniki Wrocławskiej; 2013; 175-184. [11] Page J, Albuisson M, Wald L. The European solar radiation atlas: a valuable digital tool. Solar En. 2001

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Gaweł Sołowski, Izabela Konkol and Adam Cenian

in dark fermentation process in Poland. J Ecol Eng. 2019;20:146-160. DOI: 10.12911/22998993/97270. [40] Nagasawa K, Davidson FT, Lloyd AC, Webber ME. Impacts of renewable hydrogen production from wind energy in electricity markets on potential hydrogen demand for light-duty vehicles. Appl Energy. 2019;235:1001-1016. DOI: 10.1016/j.apenergy.2018.10.067. [41] Blanco H, Nijs W, Ruf J, Faaij A. Potential for hydrogen and power-to-liquid in a low-carbon EU energy system using cost optimization. Appl Energy. 2018;232:617-639. DOI: 10.1016/j.apenergy.2018.09.216.