Деталі
Опубліковано: Понеділок, 23 січня 2023, 10:12
Перегляди: 196

21. IDENTIFYING MEASURES FOR INCREASING RENEWABLE ENERGY GENERATION FROM AGROINDUSTRIAL RESIDUES AND WASTES IN UKRAINE IN ACCORDANCE WITH THE BEST PRACTICES IN LATVIA
https://doi.org/10.31073/foodresources2022-19-21
Oleksandr Mytchenok, Sandija Zēverte-Rivža
Pages: 184-190

Abstract
Subject of research. The measures facilitating biogas and biofuels production from agro-industrial wastes and residues. Purpose. To conduct state-of-the-art review of policy measures and actions in Latvia stipulating growth production of biofuels and biogas from agro-industrial residues and wastes. Based on Latvian experience and policy actions, authors will identify key institutional, legal, policy measures and conditions for benefitting from biofuel/biogas production from agro-industrial residues and wastes in Ukraine. Methods. For the research, a systematic approach to factual materials was used, conceptual research through observing and analyzing legal acts and other policy documents, available data etc., and abstract-logical approach to generalize research results and formulate conclusions. The materials used for the studies included publications, research and policy papers, reports of public institutions and NGOs etc. Results. Ukraine is facing energy, economic and social challenges due to the dependence on import of energy resources aggravated due to unprovoked invasion of russian federation. At the same time, Ukraine possessing profound agricultural and food potential has an abundant supply of residues and by-products, combined with agro-industrial wastes. These resources have already found vast applications in Latvia and other EU countries for energy purposes, including production of renewable energy. Key measures for promoting and facilitating biogas and biofuel production in Ukraine should be based on Latvian experience regarding sound and sustainable development of biogas and biofuel industry. Scope of research results. The results are supposed to be used for identifying critical policy needs and policy levers to foster deployment of biofuel technologies as a part of a sustainable value chain in agriculture production and processing in Ukraine.
Key words: biofuels, biogas, biomethane, policy, measures, residues, wastes
References
1. Shedding light on energy in the EU. (2022).
https://ec.europa.eu/eurostat/cache/infographs/energy/img/pdf/shedding-light-in-the-EU-2022_en.pdf?lang=en.
2. National energy and climate plan 2021-2030. (2020).
https://ec.europa.eu/energy/sites/ener/files/documents/lv_final_necp_main_en.pdf.
3. Latvijas energobilance 2021. GADĀ (2022). Centrālā statistikas pārvalde. https://admin.stat.gov.lv/system/files/publication/2022-08/Nr_23_Latvijas_energobilance_2021_gada_%2822_00%29_LV_1.pdf. [in Latvian].
4. Elektroenerģijas izstrāde koģenerācijas stacijās pērn veidoja 51% no kopējā saražotā elektroenerģijas daudzuma Latvijā. (2022). Centrālā statistikas pārvalde. https://stat.gov.lv/lv/statistikas-temas/noz/energetika/preses-relizes/8690-kogeneracijas-staciju-darbiba-2021-gada?themeCode=EN [in Latvian].
5. Rozporadjennja Cabinetu Ministriv Ukrainy №605-r from 18.08.2017 “Pro shvalennja energetychnoi strategii Ukrainy do 2035 “Bezpeka, energoefektyvnist, konkurentospromojnist”. [Decree of Cabinet of Ministers of Ukraine #605-r from 18.08.2017 “Adoption of Energy Strategy of Ukraine till 2035 “Security, energy efficiency and competitiveness”] [in Ukrainian]. 6. Energy consumption from renewable sources for 2007-2020. https://www.ukrstat.gov.ua/. 7. 2020 Ukraine energy balance (by products). https://www.ukrstat.gov.ua/. 8. Liquid Biofuels. https://uabio.org/en/liquid-biofuels. 9. Biomethane zoning and assessment of the possibility and conditions for connecting of biomethane producers to the gas transmission and distribution systems of Ukraine. https://saf.org.ua/wp-content/uploads/2022/02/BM-Zoning-Final-Report-version-2022-02-01.pdf. 10. Barriers to the development of the biogas and biomethane sectors in Ukraine. https://uabio.org/en/biogas-and-biomethane. 11. Postanova Cabinetu Ministriv Ukrainy № 823 from 22.07.2022 “Pro functionuvanna biometanovogo rejestru” [Decree of Cabinet of Ministers of Ukraine № 823 from 22.07.2022 “On the functioning of biomethane register” [in Ukrainian]. 12. Villarroel-Schneider, J., Höglund-Isaksson, L., Mainali, B., Martí-Herrero, J., Cardozo, E., Malmquist, A., Martin, A. (2022). Energy self-sufficiency and greenhouse gas emission reductions in Latin American dairy farms through massive implementation of biogas-based solutions. Energy Conversion and Management, Vol. 261. https://doi.org/10.1016/j.enconman.2022.115670. 13. Nevzorova, T., Kutcherov, V.. (2019). Barriers to the wider implementation of biogas as a source of energy: A state-of-the-art review. Energy Strategy Reviews, Vol. 26. https://doi.org/10.1016/j.esr.2019.100414. 14. Zēverte-Rivža Sandija. (2014). Promotion of biogas production in Latvia. Energetika, T. 60 (4). P. 249-259. 15. Mytchenok O., Chekhova I., Chekhov A. Osnovni naprjamy vykorystannja olijnyh kultur v bioenergetychniy galuzi. [Main oilseeds utilization trends in bioenergy industry]. Productyvnist agropromyslovogo kompleksu. [Productivity of Agroindustrial Complex]. 2014. 26. P. 88-97. [in Ukrainian]. 16. Deremince, B., Scheidl, S., Stambasky, J., Wellinger, A. Bank with existing incentives and subsequent development of biogas plants compared to national targets. European Biogas Association. https://www.europeanbiogas.eu/wp-content/uploads/2021/02/BiogasAction-D2.3-Final-version.pdf.

naas logo mes logo