BABAK V.P., BABAK S.V., MYSLOVYCH M.V., ZAPOROZHETS A.O., ZVARITCH V.M. 2020. Methods and models for information data analysis. In: Diagnostic systems for energy equipments. Ser. Studies in Systems, Decision and Control. Vol. 281 p. 23–70. Springer. DOI
10.1007/978-3-030-44443-3_2. BOJKO T.G., PASLAVSKYI M.M., RUDA M.V. 2019. Stability of composite landscape complexes: model formalization. Scientific Bulletin of UNFU. Vol. 29(3) p. 108–113. DOI
10.15421/40290323.
BOSAK N., CHERNIUK V., MATLAI I., BIHUN I. 2019. Studying the mutual interaction of hydraulic characteristics of water distributing pipelines and their spraying devices in the coolers at energy units. Eastern-European Journal of Enterprise Technologies. Vol. 3/8 (99) p. 23–29. DOI
10.15587/1729-4061.2019.166309.
BURTON T., SHARPE D., JENKINS N., BOSSANYI E. 2001. Wind energy. Handbook. Brisbane England. John Wiley & Sons. ISBN 0471489972 pp. 609.
CHAPMAN P.F., ROBERTS F. 1983. Metal resources and energy. Ser. Butterworths Monographs in Materials. Boston. Butterworth- Heinemann Ltd. ISBN 0408108029 pp. 248.
CHERNIUK V.V., IVANIV V.V., BIHUN I.V., WOJTOWICZ JA.M. 2019. Coefficientof flow rate of inlet cylindrical nozzles with lateral orthogonal inflow. In: Lecture Notes in Civil Engineering. Book Series. Vol. 47 [e-book]. Ed. Z. Blikharskyy. Proceedings of CEE p. 50–57.
CHMIELNIAK T. 2008. Technologie energetyczne [Energy technologies]. Warszawa. WNT. ISBN 9788379260324 pp. 564.
CLEARY B., DUFFY A., O’CONNOR A. 2012. Using life cycle assessment to compare wind energy infrastructure. International Symposium on Life Cycle Assessment and Construction. Nantes, France 10– 12.07.2012 p. 87–98.
Danish Energy Agency 2020. Energy Statistics 2020 [online]. [Access 27.05.2020]. Available at:
https://ens.dk/en/our-services/statis-tics-data-key-figures-and-energy-maps/annual-and-monthly-sta-tistics DSTU ISO 14040:2004 2007. Ekologhichne keruvannja. Ocinjuvannja zhyttjevogho cyklu. Pryncypy ta struktura [Environmental management. Life cycle assessment. Principles and structure]. Kyiv. Derzhstandart Ukrajiny.
EU 2010. ILCD Handbook – General guide for Life Cycle Assessment – Detailed guidance. 1st ed. 2010. EUR 24708 EN. Luxembourg. European Commission – Joint Research Centre – Institute for Environment and Sustainability: International Reference Life Cycle Data System Publications Office of the European Union. ISBN 978-92-79-19092-6 pp. 394. DOI
10.2788/38479.
GHENAI CH. 2012. Life cycle analysis of wind turbine. In: Sustainable development, energy, engineering and technologies, manufacturing and environment. Ed. Ch. Ghenai. InTech p. 19–32. DOI
10.5772/29184.
GOEDKOOP M., OELE M., LEIJTING J., PONSIOEN T., MEIJER E. 2016. Introduction to LCA with SimaPro. [online]. [Access 01.08.2012]. Available at:
https://www.presustainability.com/download/Sima-Pro8IntroductionToLCA.pdf ISO 14040 Environmental Management. 1997. Life Cycle Assessment. Principles and framework. International Organisation for standardisation: Geneva, Switzerland. ISO 14042: DSTU ISO/TR 14047:2007 (ISO/TR 14047:2003, IDT) Ekologhichne upravlinnja. Ocinjuvannja vplyviv u procesi zhytt-jevogho cyklu. Pryklady zastosuvannja. [Environmental management. Impact assessment in the life cycle. Application examples], Kyiv. Derzhstandart Ukrajiny.
KOLLNER T., JUNGBLUTH N. 2000. Life cycle impact assessment for land use. Third SETAC World Congress, 21–25.05.2000, Brighton, UK p. 17–35.
LENZEN M., WACHSMANN U. 2004. Wind turbines in Brazil and Germany: An example of geographical variability in life-cycle assessment. Applied Energy. Vol. 77 p. 119–130.
MARTINEZ E., SANZ F., PELLEGRINI S., JIMÉNEZ E., BLANCO J. 2009. Life cycle assessment of a multi-megawatt wind turbine. Renewable Energy. Vol. 34(3) p. 667–673. DOI
10.1016/j.renene.2008.05.020.
POMBO O., ALLACKER K., RIVELA B., NEILA J. 2016. Sustainability assessment of energy saving measures: a multi-criteria approach for residential buildings retrofitting. A case study of the Spanish housing stock. Energy and Buildings. Vol. 116 p. 384–394. DOI
10.1016/j.enbuild.2016.01.019. PROKOPENKO O., CEBULA J., CHAYEN S., PIMONENKO T. 2007. Wind energy in Israel, Poland and Ukraine: Features and opportunities. International Journal of Ecology and Development. Vol. 32(1) p. 98–107.
SINHA R., LENNARTSSON M., FROSTELL B. 2016. Environmental footprint assessment of building structures: A comparative study. Building and Environment. Vol. 104 p. 162–171. DOI
10.1016/j.buildenv.2016.05.012.
TÓTH T., SZEGEDI S. 2007. Anthropogeomorphologic impacts of onshore and offshore wind farms. Acta Climatologica et Chorologica. Vol. 40–41 p. 147–154.
UN 1992. Climate change and transnational corporations analysis and trends [online]. New York. United Nations. ISBN 92-1-104385-9. [Access 20.06.2006]. Available at:
http://www.ieer.org/reports/ climchg/ch7.pdf VAN DE MEENT D., BAKKER J., KLEPPER O. 1997. Potentially Affected Fraction as an indicator of toxic stress, application of aquatic and terrestrial ecosystems in The Netherlands. 18th Annual Meeting of SETAC, November. San Francisco pp. 245. Vestas 2004. General Specification V90 – 3.0 MW 60 Hz Variable Speed Turbine [online]. [Access 20.05.2006]. Available at:
https://report.nat.gov.tw/ReportFront/PageSystem/reportFileDownload/C09503816/002 Vestas 2005. Life cycle assessment of offshore and onshore sited wind power plants based on Vestas V90-3.0 MW turbines [online]. [Access 20.05.2006]. Available at:
https://www.vestas.com/content/dam/vestas-com/global/en/sustainability/reports-and-ratings/lcas/LCA_V903MW_version_1_1.pdf.coredownload.inline.pdf ZBICINSKI I., STAVENUITER J., KOZLOWSKA B., VAN DE COEVERING H. 2006. Product design and life cycle assessment. Ser. Environmental Management. No. 3. Uppsala. The Baltic University Press. ISBN 91-975526-2-3 pp. 314.