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Title

Green energy transformation in Poland

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2021

Volume

69

Issue

No. 1

Affiliation

Kiciński, Jan : Institute of Fluid Flow Machinery Polish Academy of Sciences, Fiszera 14, 80-231 Gdańsk, Poland

Authors

Kiciński, Jan

Keywords

environmentally friendly power engineering ; energy transformation ; low-emission technologies ; civic power engineering

Divisions of PAS

Nauki Techniczne

Coverage

e136213

Bibliography

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  3. European Economic Congress Trends, Warszawa, 2020.
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  12.  Elon Musk predicts the world’s energy future. [Online]. http://www.odnawialnezrodlaenergii.pl [in Polish].
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  16.  IRENA International Renewable Energy Agency, Transforming the energy system – and holding the line on the rise of global temperatures, ISBN 978‒92‒9260‒149‒2, 2019. [Online]. www.irena.org/publications
  17.  Report: Global Commission on the Geopolitics, International Renewable Energy Agency IRENA, A New World. The Geopolitics of the Energy Transformation, January 2019, ISBN: 978-92-9260-097-6. [Online]. www.geopoliticsofrenewables.org
  18.  IRENA International Renewable Energy Agency, Global Energy Transformation. A Roadmap to 2050, 2019 edition, ISBN 978‒92‒9260‒121‒8. [Online]. www.irena.org/publications
  19.  IRENA International Renewable Energy Agency, Hydrogen: A renewable energy perspective, Tokyo, September 2019, ISBN: 978-92- 9260-151-5.
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  21.  T. Chmielniak, S. Lepszy, and P. Mońka, “Hydrogen energy – opportunities and barriers, Modern problems of thermodynamics”. Eds. T. Bury, A. Szlęk, Institute of Heat Engineering, Gliwice, 2017 [in Polish].
  22.  A. Cenian, J. Kiciński, P. Lampart, “New distributed sustainable prosumer power engineering”, Nowa Energia 6, 23–28 (2012) [in Polish].
  23.  A.Cenian, J.Kiciński, and P. Lampart, “Prosumer power engineering – a chance for the development of the domestic machine industry”, Czysta Energia 10 (2013) [in Polish].
  24.  A. Cenian, J. Kiciński, and P. Lampart, “Quo vadis power engineering? Why small and distributed is beautiful and rich?”, Czysta Energia 4, 30–31 (2012) [in Polish].
  25.  J. Kiciński, “Do we have a chance for small-scale energy generation? The examples of technologies and devices for distributed energy systems in micro & small scale in Poland”, Bull. Pol. Ac.: Tech. 61(4), 749‒756 (2013).
  26.  J. Kiciński and G. Żywica, “Prototype of the domestic CHP ORC energy system”, Bull. Pol. Ac.: Tech. 64(2), 417‒424 (2016).
  27.  J. Kiciński and G. Żywica, Steam Microturbines in Distributed Cogeneration, Springer, 2014.
  28.  A. Cenian, P. Lampart, K. Łapiński, and J. Kiciński, “Innovative eco-technologies for sustainable power engineering which are developed at IMP PAN in Gdańsk. Part I”, Przegląd Energetyczny 3, 36–39 (2015) [in Polish].
  29. J. Kiciński, “Examples of technologies and devices used in distributed energy systems based on energy produced from biomass and agricultural waste”, Nowa Energia 1, 119–122 (2014) [in Polish].
  30.  A. Cenian, M. Górski, and J. Kiciński, “Photovoltaics, biogas plants, biomass”, Przemysł Zarządzanie Środowisko, September-October 2011 [in Polish].
  31. J. Kiciński, A. Cenian, and K. Bogucka, “IMP PAN focuses on innovative solutions for the energy sector – we are discovering the potential of biogas”, Nasz Gdańsk, 11(112), 11–12 (2010), [in Polish].
  32.  J. Kiciński and P. Lampart, “Mini and micro CHP ORC power plants as a prospective form of implementation of renewable energy technologies in Poland”, Energetyka Cieplna i Zawodowa 6, 39–43 (2009), [in Polish].

Date

26.01.2021

Type

Article

Identifier

DOI: 10.24425/bpasts.2020.136213

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2021; 69; No. 1; e136213
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