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Autor
Romaniuk Wacław (Institute of Technology and Life Sciences in Falenty, Warsaw Branch, Poland), Zheliezna Tetyana (Institute of Engineering Thermophysics of NAS of Ukraine, Kyiv, Ukraine), Drahniev Semen (Institute of Engineering Thermophysics of NAS of Ukraine, Kyiv, Ukraine), Bashtovyi Anatoliy (Institute of Engineering Thermophysics of NAS of Ukraine, Kyiv, Ukraine), Sobczuk Henryk (Representation of the Polish Academy of Sciences in Kyiv, Kyiv, Ukraine), Marczuk Andrzej (University of Life Sciences in Lublin, Lublin, Poland), Titova Liudmyla (National University of Life and Environmental Sciences of Ukraine, Kyiv, Ukraine), Rogovskii Ivan (National University of Life and Environmental Sciences of Ukraine, Kyiv, Ukraine), Borek Kinga (Institute of Technology and Life Sciences in Falenty, Warsaw Branch, Poland)
Tytuł
Prospects for Production and Consumption of Second Generation Biofuels in Ukraine
Perspektywy produkji i zużycia biopaliw drugiej generacji na Ukrainie
Źródło
Agricultural Engineering, 2018, R. 22, nr 4 (168), s. 71-79, tab., bibliogr. 17 poz.
Słowa kluczowe
Maszyny i urządzenia, Biopaliwa, Rolnictwo
Machinery and equipment, Biofuels, Agriculture
Uwagi
summ., streszcz.
Kraj/Region
Ukraina
Ukraine
Abstrakt
W artykule dokonano analizy aktualnego stanu produkcji płynnych biopaliw drugiej generacji na świecie w aspekcie rozpoczęcia produkcji na Ukrainie. Wykorzystanie biopaliw płynnych może przyczynić się do wzmocnienia niezależności energetycznej kraju. Celem badań jest ocena rentowności produkcji bioetanolu według ilości produkcji bioetanolu w kontekście cen benzyny na Ukrainie i sprzedaży jej na europejskich rynkach. Stwierdzono, że wykorzystanie odpadów z gorzelni jako dodatków do fermentacji zwiększyło wydajność uzysku biogazu do 40-80% w porównaniu z fermentacją odchodów bydlęcych bez dodatków, a zawartość metanu wynosiła 70-78%.(abstrakt oryginalny)

The article analyzes the current state of production of second generation biofuels in the world and evaluates the possibility of launching such production in Ukraine. The work is topical due to the fact that liquid biofuels can replace a certain share of motor fuels consumed in Ukraine, thus contributing to the strengthening of the country's energy independence. The purpose of the study is to assess feasibility of a project on the production of second generation bioethanol in Ukraine; the task is to carry out a preliminary feasibility study for such a project. The analysis of the study of pure co-substrate fermentation and as a supplement for cattle manure proves that the maximum biogas yield obtained using alcohol stillage in a ratio of 40-80% increased compared to fermentation of pure cattle manure. The use of pure bards compared to the bard and the slurry mixture increases the maximum yield of biogas. It was found that the biogas obtained from the use of alcohol stillage is a high con-sumption of biogas with the methane content of between 70 and 78%.(original abstract)
Pełny tekst
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Bibliografia
Pokaż
  1. BP Statistical Review of World Energy. (2017). Pureprint Group Limited, UK. 50
  2. Demirbas A. (2009). Progress and recent trends in biodiesel fuels. Energy Conversion and Management. 50, 14-34.
  3. Directive 2009/28/EC on the promotion of the use of energy from renewable sources. Available at: http://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:02009L0028-20151005&from = EN.
  4. Fuel and energy resources of Ukraine. (2017). Statistical publication of the State Statistics Service of Ukraine, 191.
  5. Găgeanu, I., Voicu, Gh., Vladut, V., Voicea, I. (2017). Experimental research on influence of recipes used on quality of biomass pellets, Proceedings of 16th International Scientific Conference Engineering for Rural Development. Jelgava, 785-791.
  6. Geletukha, G.G., Zheliezna, T.A., Drahniev, S.V., Bashtovyi, A.I. (2018). Prospects for using biomass from agrarian pruning and plantation removal in Ukraine. Industrial Heat Engineering, Vol. 40, № 1, 68-74.
  7. Geletukha, G.G., Zheliezna, T.A., Tryboi, O.V., Bashtovyi, A.I. (2016). Analysis of the criteria for sustainable bioenergy development. Industrial Heat Engineering, Vol. 38, № 6, 49-57.
  8. Global liquids cost curve: shale is pushing out oil sands and arctic, offshore is still in race (2018). Available at: https://www.rystadenergy.com/AboutUs/ News Center/PressReleases/globalliquids-cost-curve.
  9. Jezerska, L., Zajonca, O., Rozbroja, J., Vyletěleka, J., Zegzulka, J. (2014). Research on Effect of Spruce Sawdust with Added Starch on Flowability and Pelletization of the Material, IERI Procedia 8, 154-163.
  10. Lu, D., Tabil, L., Wang, D., Wang, G. (2013). Manufacturing Wheat Straw Pellet with Wood Waste and Binders. CSBE/SCGAB 2013 Annual Conference, Univ. of Saskatchewan, Saskatoon, 7-10 July 2013.
  11. Narra, S., Tao, Y., Glaser, C., Gusovius, H.J., Ay, P. (2010). Increasing the Calorific Value of Rye Straw Pellets with Biogenous and Fossil Fuel Additives. Energy Fuels, Vol. 24, 5228-5234: DOI:10.1021/ef100823b.
  12. Nguyen, Q., Bowyer, J. (2017). Global production of second generation biofuels: Trends and influences. Available at: http://www.dovetailinc.org/report_ pdfs/2017/dovetailbiofuels0117.pdf. Planning and installing bioenergy systems. (2005). A guide for installers, architects and engineers. Sterling, VA: Earthscan. 280.
  13. Romaniuk, W., Polishchuk, V., Marczuk, A., Titova, L., Rogovskii, I., Borek K. (2018). Impact of sediment formed in biogas production on productivity of crops and ecologic character of production of onion for chives. Agricultural Engineering (wir.ptir.org). Krakow. Poland. Vol. 22. № 1. 105-125. doi:10.1515/agriceng-2018-0010.
  14. Skoruk, O.P., Tokarchuk, D.M., Vsemirnova, V.M. (2011). Perspective of the production of the 3rd generation biofuel. Proceedings of VNAU. Series "Economics", Vol. 1, 171-176.
  15. Skoruk, O.P., Grimaylo, I.S. (2011). Prospects for the formation of cluster biofuel production in Ukraine. Proceedings of VNAU. Series "Economics", Vol. 2, 176-180.
  16. Stahl, M., Berghel, J., Frodeson, S., Granstrom, K., Renstrom, R. (2012). Effects on Pellet properties and energy use when starch is added in the wood-fuel pelletizing process, Energy Fuels Journal, Vol. 26, № 3, 1937-1945.
  17. What it costs to produce oil. (2018). CNN money. Available at: http://money.cnn.com/interactive/ economy/the-cost-to-produce-a-barrel-of-oil/index. html?iid=EL.
Cytowane przez
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ISSN
2083-1587
Język
eng
URI / DOI
http://dx.doi.org/10.1515/agriceng-2018-0038
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