[Bajwa D.S., Peterson T., Sharma N., Shojaeiarani J., Bajwa S.G. 2018. A review of densified solid biomass for energy production. Renewable and Sustainable Energy Reviews, 96: 296–305.10.1016/j.rser.2018.07.040]Search in Google Scholar
[Berezyuk S., Tokarchuk D., Pryshliak N. 2019. Economic and Environmental Benefits of Using Waste Potential as a Valuable Secondary and Energy Resource. Journal of Environmental Management and Tourism, X, 1(33): 149–160.10.14505//jemt.10.1(33).15]Search in Google Scholar
[Brunerova A., Malaťák J., Müller M., Valášek P., Roubík H. 2017. Tropical waste biomass potential for solid biofuels production. Agronomy Research, 15, 2: 359–368.]Search in Google Scholar
[EBA Investment Attractiveness Index. 2019. Available from: https://eba.com.ua/wp-content/uploads/2018/12/Invest-Index-2nd-half-2018-ENG.pdf.]Search in Google Scholar
[Energy Strategy of Ukraine for the period up to 2035 “Safety, Energy Efficiency, Competitiveness”. Order of the Cabinet of Ministers of Ukraine dated August 18, 2017 No. 605-p. Available from: http://zakon2.rada.gov.ua/laws/show/605-2017-%D1%80.]Search in Google Scholar
[Geletukha H., Zheliezna T. 2017. State of the art and prospects of bioenergy development in Ukraine. Industrial Heat Engineering, 39, 2: 60–64.10.31472/ihe.2.2017.09]Search in Google Scholar
[Ghosh P., Westhoff P., Debnath D. 2019. Biofuels, food security, and sustainability. [in:] D. Debnath, S. Babu (eds.) Biofuels, Bioenergy and Food Security. Technology, Institutions and Policies. Academic Press: 211–229.10.1016/B978-0-12-803954-0.00012-7]Search in Google Scholar
[Kaletnik G. 2018. Production and use of biofuels. Second edition, supplemented: textbook. Vinnytsia, LLC “Nilan-Ltd”, 336.]Search in Google Scholar
[Kaletnik H.M., Oliinichuk S.T., Skoruk O.P., Klymchuk O.V., Yatskovskyi V.I., Tokarchuk D.M. et.al. 2012. Alternative energy of Ukraine: peculiarities of functioning and prospects of development. Vinnytsia, Edelveis and K, 250.]Search in Google Scholar
[Kaletnik H., Pryshliak V., Pryshliak N. 2019. Public Policy and Biofuels: Energy, Environment and Food Trilemma. Journal of Environmental Management and Tourism, X, 3(35): 479–487.10.14505//jemt.v10.3(35).01]Search in Google Scholar
[Klimchuk O.V. 2017. Development and regulation of competitive production of biofuels. Vinnitsya, FOP Rogalska I.O, 372.]Search in Google Scholar
[Kozlovskyi S., Mazur H., Vdovenko N., Shepel T., Kozlovskyi V. 2018. Modeling and forecasting the level of state stimulation of agricultural production in Ukraine based on the theory of fuzzy logic, Montenegrin Journal of Economics, 14, 3: 37–53.10.14254/1800-5845/2018.14-3.3]Search in Google Scholar
[Mironenko M. Yu., Poleva O.L. 2016. The socio-economic importance of bioenergy and prospects for innovative breakthrough. Investments: practice and experience. 7: 24–29.]Search in Google Scholar
[Monforti F., Bodis K., Scarlat N., Dallemand J.-F. 2013. The possible contribution of agricultural crop residues to renewable energy targets in Europe: A spatially explicit study. Renewable and Sustainable Energy Reviews, 19: 666–677.10.1016/j.rser.2012.11.060]Search in Google Scholar
[Pryshliak N. 2019. Biogas production in individual biogas digesters: experience of India and prospects for Ukraine. Agricultural and Resource Economics: International Scientific E-Journal, 5, 1: 122–136.]Search in Google Scholar
[Rutz D., Janssen R. (eds.) 2014. Socio-economic impacts of bioenergy production. Springer.10.1007/978-3-319-03829-2]Search in Google Scholar
[Sadh P.K., Duhan S., Duhan J.S. 2018. Agro-industrial wastes and their utilization using solid state fermentation: a review. Bioresources and Bioprocessing, 5: 1.10.1186/s40643-017-0187-z]Search in Google Scholar
[Schaffartzik A., Plank C., Brad A. 2014. Ukraine and the great biofuel potential? A political material flow analysis. Ecological Economics, 104, C: 12–21.10.1016/j.ecolecon.2014.04.026]Search in Google Scholar
[The official website of the Ministry of Agrarian Policy and Food of Ukraine. Available from: https://minagro.gov.ua/ua.]Search in Google Scholar
[The official website of the Ministry of Economic Development, Trade and Agriculture of Ukraine. Available from: http://www.me.gov.ua/?lang=uk-UA.]Search in Google Scholar
[The official website of the Ministry of Education and Science of Ukraine. Available from: https://mon.gov.ua/ua.]Search in Google Scholar
[The official website of the National Bank of Ukraine. Available from: https://bank.gov.ua.]Search in Google Scholar
[The official website of the State Service of Ukraine on Geodesy, Cartography and Cadastre. Available from: http://land.gov.ua.]Search in Google Scholar
[The official website of the State Statistics Committee of Ukraine. Available from: http://www.ukrstat.gov.ua.]Search in Google Scholar
[Tokarchuk D.M. 2018. Economic and environmental benefits of using biogas plants in households. Economy. Finances. Management. Topical Issues of Science and Practice, 6, 34: 39–49.]Search in Google Scholar
[UN Food and Agriculture Organization. Available from: http://www.fao.org/home.]Search in Google Scholar
[United Nations Framework Convention on Climate Change. Available from: https://unfccc.int.]Search in Google Scholar
[Yakubiv V.M. 2013. Energy saving potential in the agricultural development system of Ukraine. Problems of Economics, 1: 57–61.]Search in Google Scholar
[Zulauf C., Lines A., Pryshliak N. 2017. Spanning the Globe – Corn, Soybean, and Wheat Production and Exports since 2000: Focus on the Black Sea Area and the U.S. Farmdoc Daily, 7:102, Department of Agricultural and Consumer Economics, University of Illinois at Urbana-Champaign, June 2, 2017.]Search in Google Scholar
[Zulauf C., Prutska O., Kirieieva E., Pryshliak N. 2018. Assessment of the potential for a biofuels industry in Ukraine. Problems and Perspectives in Management, 16, 4: 83–90.10.21511/ppm.16(4).2018.08]Search in Google Scholar