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Jerzy Krawczyk and Jakub Janus

), Karlsruhe, Germany. Dziurzyński W, Kruczkowski J., Krawczyk J., Skotniczny P., Janus J., Ostrogórski P. 2013: Badania eksperymentalne rozszerzonego systemu wraz z weryfikacją metodami symulacji komputerowych, w tym z wykorzystaniem modeli 3D. Report from the stage 8 of the strategic project „Improving work safety in mines” (no. SP/K/8/159840/12), Development of a gasometric system for immediate switching off the electical power supplying machines and devices in case of a sudden inflow of methane form goaf to workings, ed. IMG-PAN. Fowler J

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Abbas Aghajani Bazzazi and Mohammad Esmaeili

Mathematics with Applications 54: 1395-1402. Radulovic J., Rankovic V., 2010: Feed forward neural network and adaptive network-based fuzzy inference system in study of power lines . Expert Systems with Applications 37: 165-170. Sargolzaei J., Kianifar A., 2010: Neuro-fuzzy modeling tools for estimation of torque in Savonius rotor wind turbine . Advances in Engineering Software 41: 619-626. Singh T.N., Kanchan R., Verma A.K., Saigal K., 2005: A comparative study of ANN and neuro-fuzzy for the prediction of dynamic constant

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Paweł Frączek

References BP, 2012. BP Statistical Review of World Energy. June. CEPOS, 2009. Wind Energy - The Case of Denmark, Copenhagen. Przywołane z http://www.cepos.dk/fileadmin/user_upload/Arkiv/PDF/Wind_energy_-_the_case_of_Denmark.pdf Czarny R.M., 2009. Państwa regionu nordyckiego wobec problemu bezpieczeństwa energetycznego. [W:] Cziomer E., Międzynarodowe bezpieczeństwo energetyczne w XXI wieku, Krakowska Szkoła Wyższa im. Andrzeja Frycza Modrzejewskiego, Kraków. DEA, 2012a. Energy policy in Denmark

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Sandile Peta, Chris du Toit, Reshendren Naidoo, Walter Schmitz and Louis Jestin

References Archary H., Jestin L.M., Roohani H., 2012. Online measurement and condition based maintenance of pulverised fuel vertical spindle mills. POWER-GEN AFRICA 2012. Johannesburg, South Africa, 6-8 November 2012. Brown R., 2004. Coal and air flow measurement and control at Allegheny’s Armstrong Station. EPRI, March 29, 2004. Available at: http://www.epri.com/abstracts/Pages/ProductAbstract.aspx?ProductId=000000000001009374 Department of Trade and Industry, 2001. Technology status report. Pulverised fuel (PF

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Virgil Dumbrava, George Cristian Lazaroiu, Gabriel Bazacliu and Dario Zaninelli

, B., Brand, H., Weber, C., O’Malley, M. (2011). Stochastic optimization model to study the operational impacts of high wind penetrations in Ireland. IEEE Transactions on Power Systems, 26, 1367–1379. Ortega-Vazquez, M., and Kirschen, D. (2009). Estimating the spinning reserve requirements in systems with significant wind power generation penetration. IEEE Transactions on Power Systems, 24, 114–124. Ortega-Vazquez, M., and Kirschen, D. (2010). Assessing the impact of wind power generation on operating costs. IEEE Transactions on Smart Grid, 3, 295

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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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E. Głowacz, H. Adrian and W. Osuch

. Stasko, H. Adrian, A. Adrian, Effect of Nitrogen and Vanadium on Austenite Grain Growth Kinetics of Low Alloy Steel, Materials Characterization 56 , 340-347 (2006). [11] J. Krawczyk, H. Adrian, The kinetics of austenite grain growth in steel for wind power plant shafts, Archives of Metallurgy and Materials 55 , 91-100 (2010). [12] H. Adrian, E. G łowacz, The effect of nitrogen and microalloying elements (Vand V+Al) on austenite grain growth of 40Cr8 steel, Archives of Metallurgy and Materials 55 , 107-1116 (2010). [13

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H. Adrian and K. Wiencek

. Adrian, Effect of nitrogen and vanadium on austenite grain growth kinetics of a low alloy steel. Mater. Char. 56, 340-347 ( 2006). [11] H. Adrian, E. Głowacz, The effect of nitrogen and microalloying elements (V and V+Al) on austenite grain growth of 40Cr8 steel, Archives of Metallurgy and Materials 55, 107-116 (2010). [12] J. Krawczyk, H. Adrian, The kinetics of austenite grain growth in steel for wind power plant shafts, Archives of Metallurgy and Materials 55, 91-100 (2010). [13] H. Adrian, M. Pelczar, A. Adrian, J

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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