Details

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

Keywords

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

Divisions of PAS

Nauki Techniczne

Coverage

e136213

Bibliography

  1.  W. Steffen, et al., “Planetary boundaries: Guiding human development on a changing planet”, Science 347(6223), 1259855‒1, (2015).
  2.  Ch.H. Trisos, C. Merow, and A.L. Pigot, “The projected timing of abrupt ecological disruption from climate change”, Nature, 580, 496–501(2020).
  3. European Economic Congress Trends, Warszawa, 2020.
  4.  International Energy Agency, “World Energy Outlook”, 2013, 2014, 2015, 2016.
  5.  International Energy Agency, “Key World Energy Statistics”, 2015.
  6.  “Pictures of the Future”, Siemens, The Magazine for Research and Innovation, Fall (2009).
  7.  The energy future: how to provide energy after the depletion of fossil fuels? [Online]. www.futurenergia.org/ [in Polish].
  8.  The energy future. [Online]. www.shell.pl/ [in Polish].
  9.  Hawking warns: Doom awaits mankind. [Online]. www.rp.pl [in Polish].
  10.  Artificial intelligence for a billion dollars. [Online]. www.rp.pl [in Polish].
  11.  What will be the energy in the future? Exxon Mobil has given forecasts for 2040. [Online]. www.gazetaprawna.pl/ [in Polish].
  12.  Elon Musk predicts the world’s energy future. [Online]. http://www.odnawialnezrodlaenergii.pl [in Polish].
  13.  Distributed energy systems – on the way to low-carbon Poland, expert debate, Mariusz Wójcik. [Online]. http://www.chronmyklimat.pl/ [in Polish].
  14.  M. Nowicki, Dilemmas of the Polish energy sector. 01/2016 [Online]. www.csm.org.pl, [in Polish].
  15.  J. Rączka, M. Swora, and W. Stawiany, “Distributed generation in modern energy policy”, Materials of the forum Energy-Effect- Environment. [Online]. http://forumees.pl/ [in Polish].
  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.
  20.  IRENA International Renewable Energy Agency, Off-grid renewable energy solutions to expand electricity access: An opportunity not to be missed, ISBN 978‒92‒9260‒101‒0, 2019.
  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
×