AgricEng Logo

Hydrogen Production Analysis: Prospects for Ukraine

Authors

DOI:

https://doi.org/10.2478/agriceng-2021-0008

Keywords:

biohydrogen, ecology, bioenergy, sustainable development

Abstract

Over the last few years, hydrogen energy has shifted from a little-studied field to the main one with which leading western countries associate the prospects of their national economies. The reasons are the unprecedented pace of development of hydrogen technologies. It turned out that they are able to provide significant reductions in greenhouse gas emissions, and thus bring closer the solution to the problem of global climate change. The first and foremost purpose of our investigation is to reveal that our country has ample opportunities to become the main supplier of hydrogen to the EU market, overtaking North Africa in the competition. Using the methods, authors studied the targets of the European funds towards development of energy production from biohydrogen, studied the potential for the implementation of hydrogen projects, possibilities of financing them and a potential ability of Ukraine to form internal and external markets for hydrogen energy. One of the main issues of Ukraine's possible participation in Europe's hydrogen energy program as a supplier and producer of renewable hydrogen is the possibility of its technically safe and cost-effective transportation to EU countries. As a conclusion to the authors’ research, the path of the hydrogen industry development in Ukraine will help to receive additional investments in the Ukrainian economy for creation of new capacities for "green" hydrogen production. In return, Europe will receive research and evolution of the bioenergy component of the economy, which will permit the safe transition of Europeans to an affordable, competitive, and stable energy system.

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.

Downloads

Published

2021-07-23

Issue

Vol. 25 (2021)

Section

Articles

How to Cite

Hydrogen Production Analysis: Prospects for Ukraine. (2021). Agricultural Engineering , 25, 99-114. https://doi.org/10.2478/agriceng-2021-0008

Most read articles by the same author(s)

<< < 1 2 3 4