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Stanisław Rychlicki and Jakub Siemek

References The European Wind Energy Association (EWEA), 2012 - Wind in Power: 2011 European Statistics. February; Kaliski M., Krupa A., Sikora A . , 2012a - Forecasts and/or Scenarios, Including Quantification of the Distance, Timing and Costs. Archives of Mining Sciences, vol. 57, No 2, p. 425-441. Kaliski i in. 2012b - Kaliski M., Szurlej A., Grudziñski Z., 2012b - Wêgiel i gaz ziemny w produkcji energii elektrycznej Polski i UE. Polityka Energetyczna, t. 15, z. 4, s. 57

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Bożena Boryczko, Zygmunt Kolenda and Wojciech Nowak

–940. Wang, Y. and Ryan, S.M. 2010. Effect of uncertain fuel costs on fossil fuel and electric energy flows in the US, International Journal of Energy System vol. 1, April, pp. 209–243. Wilson, C.L. 1977. Energy: Global Prospects 1985–2000. Report of the Workshop on Alternative Energy Strategies. MIT, New York, McGraw-Hill Book Co. World Energy Council, Energetyka Świata i Polski do 2030 roku, 2007 – Polski Komitet Światowej Rady Energetycznej ( in Polish ). Zakeri et al. 2014 – Zakeri, B., Syri, S. and Rinne, S. 2014. Integration of Wind Power into

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Jarmila Zimmermannová, Adam Pawliczek and Petr Čermák

Energy: Model Estimation of the Costs of its Support. Politická ekonomie ; 62 (3) 323-346. Janssen, M. A., & Ostrom, E. (2006). Empirically based, agent-based models. Ecology and Society , 11 (2), art.37. Available from Lagorse, J., Paire, D., & Miraoui, A. (2010). A multi-agent system for energy management of distributed power sources. Renewable Energy . 35 (1), 174-182. Lengnick, M., & Wohltmann, Hw. (2013). Agent-based financial markets and New

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Florenţiu Deliu, Petrică Popov and Paul Burlacu

References [1] Babescu M., Synchronous Electrical Machines – Modeling-Identification-Simulation , ISBN 973-625-021-0, POLITEHNICA Timişoara, 2003. [2] Boldea I., Unified treatment of core losses and saturation in the othogonal axis model of electric machines , IEEE Proceedings, Vol. 134, Pt.B., No.6, 1987. [3] Celanovic N., Boroyevich D., A fast space-vector modulation algorithm for multilevel three-phase converters , IEEE Trans. Ind. Appl., vol. 37, no. 2, pp. 637-641, Mar. 2001. [4] Puttonen P, Salo M., Tuusa H., Wind power plant

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Edyta Gwarda-Gruszczyńska


In today’s changing and competitive environment, innovation is crucial for the survival of any business in the marketplace. Globalization has brought both opportunities and challenges for companies in emerging economies. The intense competitive environment is compelling these companies to innovate, so as to sustain and survive. That is why the emerging market economies are transforming into centers of innovation. These innovations associate with low-cost products like health care devices, wind power, micro finance, electric cars and many more. Multinational companies used to launch new products in the developed world and later on sell the stripped-down version of products to developing parts of the world. Since a few years ago this proces is changing its direction in an opposite way. Innovations initially launched in developing countries are introduced to advanced countries (reverse innovations). This kind of actions make the managers to change the management models of their companies and deal with different intercultural aspects. The aim of this article is to present the reverse innovation idea and typology and identify the most important intercultural aspects in their management.

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Maria Alexandra Nichifor

-turbines-dutch-flemish-border-area (accessed September 4th, 2016). David Suzuki Foundation. (2013), “Wind power opponents may be blowing hot air”, available at: (accessed September 4th, 2016). de Boer, J., Zuidema, C. (2013), “Towards an integrated energy landscape”, Paper for AESOP-ACSP Joint Congress, available at: (accessed September 5th, 2016). DutchNews. (2014), “Tourist companies join protests about

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Dan Moraru

References Bernstein, M., Fonkych, K., Loeb, S. and Loughran, D. (2003), State Level Changes in Energy Intensity and Their National Implications, Rand Corporation, Massachusetts. Frondel, M. et al. (2009), “Economic impacts from the promotion of renewable energy technologies: the German experience”, Ruhr Economic Papers, No. 156. Fay, J. and Golomb, D. (2002), Energy and the environment, Oxford University Press, Oxford. Gardner, R. (2011), Energy: Green Science Projects About Solar, Wind, and

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Roxana Clodnițchi and Alexandra Cătălina Chinie

, R. (2009), “Which renewable energy policy is a venture capitalist's best friend? Empirical evidence from a survey of international cleantech investors”, Energy Policy, Vol. 37, No. 12, pp. 4997-5006. Butler, L. and Neuhoff, K. (2004), “Comparison of Feed in Tariff, Quota and Auction Mechanisms to Support Wind Power Development”, CMI/DAE Working paper 70. Cardwell, D. (2014), “Solar and Wind Energy Start to Win on Price vs. Conventional Fuels”, New York Times Energy & Environment, available online at:

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Dario Maradin, Ljerka Cerović and Trina Mjeda

., & Pacca, S. (2013). Socio-economic benefits of wind power in Brazil. Journal of Sustainable Development of Energy, Water and Environment Systems, 1(1), 27-40. Sreeraj, E. S., Chatterjee, K., & Bandyopadhyay, S. (2010). Design of isolated renewable hybrid power systems. Solar Energy, 84(7), 1124-1136. Tarjanne, R., & Kivistö, A. (2008). Comparison of electricity generation costs. Lappeenranta University of Technology, Faculty of Technology

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Jiaju Yang, Tahir M Nisar and Guru Prakash Prabhakar

). ‘Critical success factors for public – private partnerships in infrastructure development’. Journal of Construction Engineering and Management , 131: 1, 3-14. 10.1061/(ASCE)0733-9364(2005)131:1(3) Zhang X. 2005 ‘Critical success factors for public – private partnerships in infrastructure development’ Journal of Construction Engineering and Management 131 1 3 14 Zhao, Z., Zuo, J., Zillante, G. and Wang, X. (2010). ‘Critical success factors for BOT electric power projects in China: Thermal power versus wind power’. Renewable Energy , 35: 6, 1283-1291. 10.1016/j