Visn. Nac. Akad. Nauk Ukr. 2019. (11): 29-37
https://doi.org/10.15407/visn2019.11.029 

A.A. Dolinsky, A.N. Obodovych
Institute of Engineering Thermophysics of the National Academy of Sciences of Ukraine, Kyiv

THE REALITIES OF THE PRESENT AND THE PROSPECTS OF THE PRODUCTION OF BIOETHANOL AS A COMPONENT OF MIXED FUELS

The development of the biofuel industry, in particular, the production of bioethanol in Ukraine and in the world in general, are analyzed in the paper. It is noted that in Ukraine bioethanol is obtained mainly from molasses. Prospects for the production of second-generation bioethanol, which is made from non-edible raw materials - lignocellulosic biomass (by-products of agriculture, forestry waste, municipal waste, etc) are considered. To reduce energy and resource consumption in the production of bioethanol from lignocellulosic biomass, the Institute of Engineering Thermophysics of the NAS of Ukraine has developed a multipurpose heat and mass exchange setup that allows simultaneous carrying out of processes of dispersion, dissolution, heating, hydrolysis in one apparatus.
Keywords: bioethanol, starch-containing raw materials, sugar-containing raw materials, lignocellulose-containing raw materials, DIIE- technology, multipurpose heat and mass exchange setup.

Language of article: ukrainian

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REFERENCES

  1. Cardona C.A. Sanchez O.J. Fuel Ethanol Production: Process Design Trends and Integration Opportunities. Bioresource Technology. 2007. 98: 2415. DOI: http://dx.doi.org/10.1016/j.biortech.2007.01.002
  2. Bringezu S., Schutz H., O’Brien M., Kauppi L., Howarth R.W., McNeely J. Towards sustainable production and use of resources: assessing biofuels. United Nations Environment Programme, Washington, DC, 2009. P. 38.
  3. Walker G.M. Bioethanol: Science and Technology of Fuel Alcohol. Holstebro: Ventus Publishing ApS, 2010. P. 32.
  4. Janick J., Whipkey A. Trends in new crops and new uses. Alexandria: ASHS Press, 2002. P. 17.
  5. Budaeva V.V., Mitrofanov R.Yu., Zolotukhin V.N. Investigation of enzymatic hydrolysis of cereal processing waste. Polzunovskiy vestnik. 2008. (3): 322.
  6. Kisurin I.V., Arapov K.A., Gushchin P.A., Ivanov E.V., Vinokurov V.A. Prospects for the use of microwave radiation in the process of conversion of cellulose. Bashkirskiy khimicheskiy zhurnal. 2010. 17(3): 167.
  7. Yarotsky S.V., Sushkova V.I., Sineokiy S.P., Lukina G.P. Economic analysis of biobutanol production and its development prospects. Moscow, 2008. 
  8. Dolinskiy A.A. The principle of discrete-impulse energy input and its use in technological processes. Visnyk of Academy of Sciences of Ukraine. 1984. (1): 39.
  9. Dolinskiy A.A. et al. Micro- and nano-level processes in the technologies of DIEI. Kyiv: Akademperiodyka, 2015.