USE OF WIND TURBINE FOR PRODUCE HYDROGEN IN THE COMPOSITION OF AUTONOMOUS FILLING STATIONS OF ELECTRIC VEHICLES ON FUEL CELLS

  • V. Budko National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute» 03056, 37 Peremohy Avenue, Kyiv, Ukraine, Institute of Renewable Energy, NAS of Ukraine 02094, 20A Hnata Khotkevycha Street, Kyiv, Ukraine. http://orcid.org/0000-0002-6219-4221
  • S. Kudria National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute» 03056, 37 Peremohy Avenue, Kyiv, Ukraine, Institute of Renewable Energy, NAS of Ukraine 02094, 20A Hnata Khotkevycha Street, Kyiv, Ukraine. http://orcid.org/0000-0002-4798-6853
  • M. Budko National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute» 03056, 37 Peremohy Avenue, Kyiv, Ukraine, Institute of Renewable Energy, NAS of Ukraine 02094, 20A Hnata Khotkevycha Street, Kyiv, Ukraine. http://orcid.org/0000-0003-0928-1657
  • V. Ivanchuk Національний технічний університет України «Київський політехнічний інститут ім. Ігоря Сікорського» 03056 м. Київ, пр-т Перемоги, 37 http://orcid.org/0000-0002-0585-9610
Keywords: wind turbine, autonomous charging station, electric vehicle, full cell.

Abstract

The existing variants of the renewable energy sources with respect to hydrogen production technology were analyzed and it was established that for conditions of Ukraine, electrolysis of water with use of wind and solar energy will enable the increased energy potential use of given energy sources within the condition of electric transport development on fuel elements. Among two most widely commercially used electrolytic technologies of the hydrogen production, namely alkaline and proton exchange electrolysis, for combination with wind and photovoltaic installations, the second one is the most suitable, which can be explained by better maneuvering regimes of work that resulted from the stochastic nature of electricity generation. As result of analysis on the domestic and foreign experience within realization of hydrogen production complexes using renewable sources, a scheme of autonomous fuel station for electrical vehicles on fuel cells in which the primary generator of electric energy is wind power plant was proposed. Given scheme, with proper selection of generating and accumulating capacities (buffer accumulator and hydrogen storage system), allows realizing the guaranteed fuelling of electric vehicles on fuel cells within the year without taking into consideration of both daily and seasonally fluctuations of wind energy. The necessity of developing a mathematical description of the system “wind power installation – electrolyser – buffer accumulator of energy” is highlighted for the estimation of the proposed scheme efficiency base on experimental wind speed data. Ref. 6, tabl. 1, fig. 2.

Author Biographies

V. Budko, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute» 03056, 37 Peremohy Avenue, Kyiv, Ukraine, Institute of Renewable Energy, NAS of Ukraine 02094, 20A Hnata Khotkevycha Street, Kyiv, Ukraine.

budko.jpgAuthor information: Associate Professor of the Department of Renewable Energy of the National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute" (Igor Sikorsky KPI), PhD of Technical sciences, senior researcher the Department of Wind Energy the Institute of Renewable Energy of the National Academy of Sciences of Ukraine.
Education: National Technical University of Ukraine "Kiev Polytechnic Institute", engineer-technologist in the specialty "Technical Electrochemistry".
Research area: Systems of accumulation and storage of energy based on electrochemical battery; Integrated energy supply systems based on renewable energy sources; Increasing the efficiency of autonomous power supply units on the basis of renewable energy sources.
Publications: 56.
Patents: 3.

S. Kudria, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute» 03056, 37 Peremohy Avenue, Kyiv, Ukraine, Institute of Renewable Energy, NAS of Ukraine 02094, 20A Hnata Khotkevycha Street, Kyiv, Ukraine.

kudra.jpgAuthor information: Director of the Institute of Renewable Energy of the National Academy of Sciences of Ukraine, Acting Head of the Department of Renewable Energy Sources of the National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute" (Igor Sikorsky Kyiv Polytechnic Institute), Corr. NAS of Ukraine, Doctor of Technical sciences, Professor of the Department of Renewable Energy Sources of the Igor Sikorsky Kyiv Polytechnic Institute. 
Education: Kyiv Polytechnic Institute, engineer-technologist on the specialty "Technologies of electrochemical manufactures".
Research area: integrated power supply systems based on renewable energy sources; systems of energy storage and conversion of renewable sources.

Publications: 332.
Patents: 45.
Monographs: 11.

M. Budko, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute» 03056, 37 Peremohy Avenue, Kyiv, Ukraine, Institute of Renewable Energy, NAS of Ukraine 02094, 20A Hnata Khotkevycha Street, Kyiv, Ukraine.

budkomarina1.pngAutor information: Philosophy Doctor, Senior Lecturer of the Department of Renewable Energy Sources of the Faculty of Electric Power Engineering and Automatics  of the Faculty of Electrical Engineering and Automation the National Technical University of Ukraine "Igor Sikorsky Kiev Polytechnic Institute" (Igor Sikorsky Kyiv Polytechnic Institute), Senior Researcher of Renewable Organic Energy sources Department of the Institute of Renewable Energy of the National Academy of Sciences of Ukraine.
Education: National Technical University of Ukraine "Kiev Polytechnic Institute", engineer-biotechnologist in the specialty "Industrial biotechnology".
Research area: Improving the efficiency of the use of liquid biofuels, both in pure form and in combination with traditional fuels; improvement of technologies for the production of liquid biofuels from plant raw materials.
Publications: 22.

V. Ivanchuk, Національний технічний університет України «Київський політехнічний інститут ім. Ігоря Сікорського» 03056 м. Київ, пр-т Перемоги, 37

Ivanchuk.jpgAutor information: student of NTUU «Igor Sikorsky Kyiv Polytechnic Institute».
Research area: renewable energy.
Publications: 10.

References

Kudria S.O., Budko V.I. Introduction to Alternative and Renewa-ble Energy. Electronic course of lectures. Kyiv. National Technical University of Ukraine "KPI". 2013. 360 p. [in Ukrainian].
2. Hydrogen from renewable power: Technology outlook for the energy transition 2018. International Renewable Energy Agency (IRENA).Abu Dhabi. 2018. [in English].
3. Radchenko R.V., Mokrushin A.S., Tyulpa V.V. Vodorod v energetike. [Hydrogen in Energy]. ucheb. Posobie. Eka-terinburg. Izd-vo Ural. un-ta. 2014. 229 р. [in Russian].
4. Field K. Clean Technica: Hydrogen Fuel Cell & Battery Electric Vehicles — Technology Rundown August 2018. Elec-tronic resource. - Hydrogen Fuel Cell & Battery Electric Vehi
cles — Technology Rundown. Retrived from www.cleantech-nica.com/2018/08/11/hydrogen-fuel-cell-battery-electric-vehicles-technology-rundown. Applying date 11.11.2018. [in English].
5. Mkhitarian N.M., Kudria S.O., Yatsenko L.V., Shynkarenko L.Ya., Budko V.I. Rozvytok vodnevoi enerhetyky v Ukraini AR Krym. [Development of hydrogen energy in Ukraine Crimea]. Materials IX international conference Renewable energy of the 21st century. 2008. Pр.24-29. [in Ukrainian].
6. F.J. Pino Lucena, Felipe Rosa, A. Iranzo Paricio, Luis Valverde-Isorna,, Eduardo López, P. Bermejo Morillo. Hydrogen as energy storage for wind energy. Conference Paper (PDF Available) · July 2008 with 26 Reads Conference: I Simposium Ibérico de Hidrógeno. Pilas de Combustible y Baterías Avanzadas. 2008. At Bilbao. [in English].

Abstract views: 370
PDF Downloads: 218
Published
2019-06-13
How to Cite
Budko, V., Kudria, S., Budko, M., & Ivanchuk, V. (2019). USE OF WIND TURBINE FOR PRODUCE HYDROGEN IN THE COMPOSITION OF AUTONOMOUS FILLING STATIONS OF ELECTRIC VEHICLES ON FUEL CELLS. Vidnovluvana Energetika , (2(57), 40-46. https://doi.org/10.36296/1819-8058.2019.2(57).40-46