References
- A European Green Deal. Available online: https://ec.europa.eu/info/strategy/priorities-2019-2024/european-green-deal.
- Association “Energy Efficient Cities of Ukraine”. https://new.ingwb.com/doyourthing/sectors/are-we-close-to-the-hydrogen-tipping-point.
- Mohammad, T.A.; Aqsha, A.; Mariam, A.; Ain, S.; Hellgardt, K.; Sumaiya, Z.A. and Farooq, S. (2020). Catalytic reforming of oxygenated hydrocarbons for the hydrogen production: an outlook. Biomass Conv. Bioref. 127, 109852.
- Bioenergy Association of Ukraine. Available online: https://uabio.org/bioenergy-transition-in-ukraine/.
- Bloomberg New Energy Finance (2021). Available online: https://about.bnef.com/
- Diachuk, О.; Chepeliev, М.; Podolets, R.; Trypolska, G.; Venger, V., Saprykina, T. and Yukhymets, R. (2017). Transition of Ukraine to the Renewable Energy by 2050. Heinrich Boell Foundation Regional Office in Ukraine, Publishing house “Art Book” Ltd.,
- Dziedzic, K.; Mudryk, K.; Hutsol, T. and Dziedzic, B. (2018). Impact of Grinding Coconut Shell and Agglomeration Pressure on Quality Parameters of Briquette, Engineering for Rural Development. Jelgava, 1, 1884-1889.
- EBA. European Biogas Association. Available online: https://www.europeanbiogas.eu/2020-gas-decarbonisation-pathways-study.
- Epshtein, Y. (2020). Vyrobnytstvo vodniu z biomasy. Available online: https://uabio.org/wp-content/uploads/2020/09/Epshtein_Green_hydrohen_29092020.pdf.
- Gas Decarbonisation Pathways 2020-2050 - Gas for Climate. Available online: gasforclimate2050.eu.
- Golub, G.; Skydan, O.; Kukharets, V.; Yarosh, Y.; Kukharets, S. (2020). The estimation of energetically self-sufficient agroecosystem’s model. Journal of Central European Agriculture, 21(1), 168-175.
- Hydrogen Europe. Available online: https://hydrogeneurope.eu.
- Institute for Energy Economics and Financial Analysis. Available online: https://ieefa.org/morgan-stanley-green-hydrogen-could-be-economically-competitive-by-2023/.
- International Energy Agency. Available online: https://www.iea.org/data-and-statistics/charts/current-policy-support-for-hydrogen-deployment-2018.
- Ishaq, H. and Dincer, I. (2021). Comparative assessment of renewable energy-based hydrogen production methods. Renewable and Sustainable Energy Reviews, 135, 110192.
- Kasprzak, K.; Wojtunik-Kulesza, K.; Oniszczuk, T.; Kuboń, M. and Oniszczuk, A. (2018). Secondary Metabolites, Dietary Fiber and Conjugated Fatty Acids as Functional Food Ingredients against Overweight and Obesity. Nat. Prod. Commun, 13, 1073-1082.
- Kayfeci, M.; Keçebaş, A. and Bayat, M. (2019). Hydrogen production. Solar Hydrogen Production Processes. Systems and Technologies. Cambridge, Academic Press.
- Kovalenko, V.; Kovalenko, N.; Labenko, O.; Faichuk, O. and Faichuk, O. (2020). Bioenergy sustainable development: achieving the balance between social and economic aspects, E3S Web of Conferences, 154, 07008.
- Kukharets, S.; Hutsol, T.; Glowacki, S.; Sukmaniuk, O.; Rozkosz, A. and Tkach, O. (2021). Concept оf Biohydrogen Production by Agricultural Enterprises. Agricultural Engineering, 1, 63-72. https://doi.org/10.2478/agriceng-2021-0005
- Kubon, M., Krasnodebski, A. (2010). Logistic cost in competitive strategies of enterprises, Agricultural Economics, 56, 397-402.
- Kuzmenko, S. and Perederiy, N. (2015). Market of rapeseed: economic and bioenergetic perspective, Monograph, Komprynt.
- National energy and climate plans (NECPs). Available online: https://ec.europa.eu/energy/topics/energy-strategy/national-energy-climate-plans_en/
- Ni, M.; Leung, D.Y.C.; Leung, M.K.H.; Sumathy, K. (2006). An overview of hydrogen production from biomass. Fuel Processing Technology, 87, 5, 461-472.
- Nikolaidis, P. and Poullikkas, A. (2017). A comparative overview of hydrogen production processes, Renewable and Sustainable Energy Reviews, 67, 597-611.
- Podhornyi, A. (1998). Vodorodnaia enerhetyka, Nauka.
- Proekt Dorozhnoi karty dlia vyrobnytstva ta vykorystannia vodniu v Ukraini [Draft Roadmap for manufacture and use hydrogen in Ukraine] (2021). https://unece.org/sites/default/files/2021-03/Hydrogen%20Roadmap%20Draft%20Report_UKR%20March%202021.pdf
- Repkin, O. (2020). Plany YeS shchodo rozvytku vodnevoi haluzi do 2030 roku ta perspektyvy Ukrainy u tsii ekosystemi. Available online: https://ecolog-ua.com/news/plany-yes-shchodo-rozvytku-vodnevoyi-galuzi-do-2030-roku-ta-perspektyvy-ukrayiny-u-ciy.
- Savchuk, S. (2020). Chomu Ukraina maie stymuliuvaty rozvytok vodniu. Available online: https://www.epravda.com.ua/projects/greendeal/2020/05/18/660480/.
- Sustainable Agribusiness Forum. Available online: https://saf.org.ua/news/452/.
- The Future of Hydrogen. Available online: https://www.iea.org/reports/the-future-of-hydrogen.
- Tryhuba, A.; Hutsol, T.; Glowacki, S.; Tryhuba, I.; Tabor, S.; Kwasniewski, D.; Sorokin, D. and Yermakov, S. (2021a). Forecasting Quantitative Risk Indicators of Investors in Projects of Biohydrogen Production from Agricultural Raw Materials, Processes, 9(1), 258.
- Tryhuba, A.; Hutsol, T.; Tryhuba, I.; Pokotylska, N.; Kovalenko, N.; Tabor, S. and Kwasniewski, D. (2021b). Risk Assessment of Investments in Projects of Production of Raw Materials for Bioethanol, Processes, 9(1), 12.
- Tsina na voden vpade v try razy. Available online: https://glavcom.ua/new_energy/news/cina-na-voden-vpade-v-tri-razi-698015.html.
- Vodneva stratehiia YeS. Ukraina maie vykorystaty svii potentsial [EU hydrogen strategy. Ukraine must use its potential]. Available online: https://ukurier.gov.ua/uk/articles/vodneva-strategiya-yesukrayina-maye-vikoristati-s/
- Zelenyi voden [Green hydrogen]. (2004). Zelena enerhetyka, 4, 16-17.