The potential of organic waste as a substrate for anaerobic digestion in Ukraine: trend definitions and environmental safety of the practices

dc.citation.epage144
dc.citation.issue3
dc.citation.spage135
dc.contributor.affiliationSumy State University
dc.contributor.affiliationPolissya State University
dc.contributor.affiliationInternational Innovation and Applied Center “Aquatic Artery”
dc.contributor.authorChernysh, Yelizaveta
dc.contributor.authorVladimir, Shtepa
dc.contributor.authorRoy, Igor
dc.contributor.authorChubur, Viktoriia
dc.contributor.authorSkvortsova, Polina
dc.contributor.authorAnastasia, Ivlieva
dc.contributor.authorDanilov, Dmitry
dc.coverage.placenameЛьвів
dc.coverage.placenameLviv
dc.date.accessioned2023-05-04T07:13:55Z
dc.date.available2023-05-04T07:13:55Z
dc.date.created2021-03-01
dc.date.issued2021-03-01
dc.description.abstractThis article is devoted to the analysis and prospects of using different types of organic waste to achieve environmental goals. Due to the unique climate and natural resources, Ukraine has significant potential for biomass, the processing of which should solve urgent problems with the disposal of waste, as well as the production of alternative energy sources and biofertilizers. The preferred substrates for anaerobic digestion in Ukraine, considering the technological feasibility, availability, and volume are animal manure (cattle, pigs), bird droppings, plant residues, industrial sludge, common sludges. After analyzing the statistics for 2015-2019, the groups of dominant wastes were identified, and with the help of the built-in function “TREND”, the forecast of the waste potential with an organic component for 2021–2026 was constructed. Examining the obtained indicators for different types of waste, the reasons for the tendency of decrease or increase in their formation in the next five years were revealed. The direction of enhancing the sustainability of bioenergy, achieving environmental goals through the bioprocessing of organic waste associated with the ecological safety of production processes were discussed.
dc.format.extent135-144
dc.format.pages10
dc.identifier.citationThe potential of organic waste as a substrate for anaerobic digestion in Ukraine: trend definitions and environmental safety of the practices / Yelizaveta Chernysh, Shtepa Vladimir, Igor Roy, Viktoriia Chubur, Polina Skvortsova, Ivlieva Anastasia, Dmitry Danilov // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2021. — Vol 6. — No 3. — P. 135–144.
dc.identifier.citationenThe potential of organic waste as a substrate for anaerobic digestion in Ukraine: trend definitions and environmental safety of the practices / Yelizaveta Chernysh, Shtepa Vladimir, Igor Roy, Viktoriia Chubur, Polina Skvortsova, Ivlieva Anastasia, Dmitry Danilov // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2021. — Vol 6. — No 3. — P. 135–144.
dc.identifier.doidoi.org/10.23939/ep2021.03.135
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/58990
dc.language.isoen
dc.publisherВидавництво Львівської політехніки
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofEnvironmental Problems, 3 (6), 2021
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dc.relation.referencesPalaniyandi, S., & Subramanian, S. (2018). Tea powder
dc.relation.referenceswaste as a potential co-substrate for enhancing the
dc.relation.referencesmethane production in Anaerobic Digestion of carbon-rich
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dc.relation.referencesThe potential of biomethane production in Ukraine. (2020).
dc.relation.referencesSAF: Sustainable Agribusiness Forum. Retrieved from
dc.relation.referenceshttps://saf.org.ua/news/590/
dc.relation.referencesVoytovych, I., Malovanyy, M., Zhuk, V., & Mukha, O. (2020).
dc.relation.referencesFacilities and problems of processing organic wastes by
dc.relation.referencesfamilytype biogas plants in Ukraine. Journal of Water and
dc.relation.referencesLand Development. 45 (IV–VI), 185–189. doi: 10.24425/jwld.2020.133493
dc.relation.referencesWąs, A., Sulewski, P., Krupin, V., Popadynets, N., MalakRawlikowska, A., Szymańska, M., Skorokhod, I., &
dc.relation.referencesWysokiński, M. (2020). The potential of agricultural
dc.relation.referencesbiogas production in Ukraine–impact on GHG emissions
dc.relation.referencesand energy production. Energies, 13(21), 5755.
dc.relation.referencesdoi:10.3390/en13215755
dc.relation.referencesenBarthakur, A., Bora, M., & Singh H. D. (1991). Kinetic model
dc.relation.referencesenfor substrate utilization and methane production in the
dc.relation.referencesenanaerobic digestion of organic feeds. Biotechnology Progress, 7(4), 369-376. doi:10.1021/bp00010a012
dc.relation.referencesenBiogas projects in Ukraine 2020. Infographics. (2020).
dc.relation.referencesenSAF: Sustainable Agribusiness Forum. Retrieved from https://saf.org.ua/news/1042/
dc.relation.referencesenBuriak, R. I. (2017). Research and forecasting of conditions of
dc.relation.referencesenUkraine poultry products market. Scientific Journal
dc.relation.referencesenof NUBiP. Series: Economy, Agrarian Management,
dc.relation.referencesenBusiness, 260. Retrieved from http://journals.nubip.edu.ua/index.php/Economica/article/view/8824
dc.relation.referencesenDhanya, B., Mishra, A., Chandel, A. K., & Verma, M. L.
dc.relation.referencesen(2020). Development of sustainable approaches for
dc.relation.referencesenconverting the organic waste to bioenergy. Science of
dc.relation.referencesenThe Total Environment, 723, 138109. doi:10.1016/
dc.relation.referencesenj.scitotenv.2020.138109
dc.relation.referencesenDynamics of poultry production in Ukraine since 1990 and
dc.relation.referencesenforecasts of industry development till 2020. (2013).
dc.relation.referencesenPoultry Market: Poultry farming of Ukraine and the world
dc.relation.referencesenmanagement, analytics, reforms, standards. Retrieved
dc.relation.referencesenfrom http://market.avianua.com/?p=48
dc.relation.referencesenChina. (2011). CN Patent No. 102173895. Jiangsu Cascade
dc.relation.referencesenClean Energy, Inc.
dc.relation.referencesenConsortium Resources and Waste Advisory Group Limited,
dc.relation.referencesenUK and COWI A/S, Denmark. (2016). Programme to
dc.relation.referencesenSupport the Green Modernization of the Ukrainian
dc.relation.referencesenEconomy. National Waste Management Strategy for
dc.relation.referencesenUkraine. Annex 5: Agricultural Waste. Working document
dc.relation.referencesenpreliminary draft. Retrieved from https://eco.kiev.ua/assets/files/Dod.5.-Vidhodi-silskogo-gospodarstva.pdf
dc.relation.referencesenGeletukha, G. G., Zheluzna, T. A., & Dragnev, S. V. (2018).
dc.relation.referencesenAnalysis of the possibilities of production and distribution
dc.relation.referencesenof briquettes from agricultural production in Ukraine.
dc.relation.referencesenAnalytical note of BAU, 20, 5-6. Retrieved from
dc.relation.referencesenhttps://saf.org.ua/wp-content/uploads/2018/05/positionpaper-uabio-20-ua.pdf
dc.relation.referencesenHealthy soils with sustainable biogas and biomethane value
dc.relation.referencesenchains – 3 arguments to World Soil Day. (2020). UABIO:
dc.relation.referencesenBioenergetic Association of Ukraine. Retrieved from:
dc.relation.referencesenhttps://uabio.org/news/9351/
dc.relation.referencesenLaw of Ukraine "On Waste": Zakon Ukraine 1998, No 187/98-
dc.relation.referencesenVR (1998). Retrieved from: https://zakon.rada.gov.ua/laws/show/187/98-%D0%B2%D1%80#Text
dc.relation.referencesenParitosh, K., Kushwaha, S. K., Yadav, M., Pareek, N.,
dc.relation.referencesenChawade, A., & Vivekanand, V. (2017). Food Waste to
dc.relation.referencesenEnergy: An Overview of Sustainable Approaches for Food
dc.relation.referencesenWaste Management and Nutrient Recycling. BioMed research
dc.relation.referenceseninternational, 2370927. doi:10.1155/2017/2370927
dc.relation.referencesenPolishchuk, V. M., Shvorov, S. A., Krusir, G. V., &
dc.relation.referencesenDavidenko, T. S. (2020). Increase of the biogas output
dc.relation.referencesenduring fermentation of manure of cattle with winemaking
dc.relation.referencesenwaste in biogas plants. Problemele energeticii regionale, 2(46), 123–134. doi:10.5281/zenodo.3898326.
dc.relation.referencesenPolishchuk, V. M., Shvorov, S. A., Tarasenko, S. Y., &
dc.relation.referencesenAntypov, I. O. (2020). Increasing the biogas release during
dc.relation.referencesenthe cattle manure fermentation by means of rational
dc.relation.referencesenaddition of substandard flour as a cosubstrate. Science and
dc.relation.referenceseninnovation, 16(4), 23-33. doi:10.15407/scin16.04.023
dc.relation.referencesenProspects for the development of the biomass market in the EU
dc.relation.referencesenand Ukraine. Impact of biomass utilization on climate
dc.relation.referencesenchange. (2019). Zelenaja energetika. Retrieved from
dc.relation.referencesenhttps://uspp.ua/assets/doc/uspp-biomass.pdf
dc.relation.referencesenRocamora, I., Wagland, S. T., Villa, R., Simpson, E. W.,
dc.relation.referencesenFernandez, O., & Bajón-Fernández, Y. (2020). Dry
dc.relation.referencesenanaerobic digestion of organic waste: A review of
dc.relation.referencesenoperational parameters and their impact on process
dc.relation.referencesenperformance. Bioresource Technology, 299, 122681.
dc.relation.referencesendoi:10.1016/j.biortech.2019.122681
dc.relation.referencesenRyabukha, G. (2019). State regulation and forecasting of
dc.relation.referencesenpultry breeding as a prospective livestock industry.
dc.relation.referencesenProblems And Prospects Of Economic And Management, 1(17), 107-113. doi:10.25140/2411-5215-2019-1(17)-107-113 (Ukrainian)
dc.relation.referencesenShapovalov, Y., Zhadan, S., Bochmann, G., Salyuk, A., &
dc.relation.referencesenNykyforov, V. (2020). Dry anaerobic digestion of chicken
dc.relation.referencesenmanure: a review. Applied Sciences, 10(21), 7825.
dc.relation.referencesendoi:10.3390/app10217825
dc.relation.referencesenSkliar R. (2021). Potential of energy production from
dc.relation.referencesenagricultural waste. Obukhov Readings: XYI International
dc.relation.referencesenScientific and Practical Conference. Kiev, Ukraine :
dc.relation.referencesenNUBiP.
dc.relation.referencesenStatistical yearbook. Environment of Ukraine 2015–2019.
dc.relation.referencesen(2019). State Statistics Service of Ukraine. Retrieved from
dc.relation.referencesenhttps://ukrstat.org/en/druk/publicat/kat_e/publ1_e.htm
dc.relation.referencesenState Classifier of Inputs: Classification of inputs on the basis
dc.relation.referencesenof a system and infrastructure. DK 005-96. Order No 89.
dc.relation.referencesen(1996). Retrieved from: https://zakon.rada.gov.ua/rada/show/vb089217-96#Text
dc.relation.referencesenSubstrate for biogas. (2019). Ecobusiness. Retrieved from
dc.relation.referencesenhttps://ecolog-ua.com/news/syrovyna-dlya-biogazu
dc.relation.referencesenThanarasu, A., Periyasamy, K., Devaraj, K., Periyaraman, P.,
dc.relation.referencesenPalaniyandi, S., & Subramanian, S. (2018). Tea powder
dc.relation.referencesenwaste as a potential co-substrate for enhancing the
dc.relation.referencesenmethane production in Anaerobic Digestion of carbon-rich
dc.relation.referencesenorganic waste. Journal of Cleaner Production, 199, 651–658. doi: 10.1016/j.jclepro.2018.07.225
dc.relation.referencesenThe potential of biomethane production in Ukraine. (2020).
dc.relation.referencesenSAF: Sustainable Agribusiness Forum. Retrieved from
dc.relation.referencesenhttps://saf.org.ua/news/590/
dc.relation.referencesenVoytovych, I., Malovanyy, M., Zhuk, V., & Mukha, O. (2020).
dc.relation.referencesenFacilities and problems of processing organic wastes by
dc.relation.referencesenfamilytype biogas plants in Ukraine. Journal of Water and
dc.relation.referencesenLand Development. 45 (IV–VI), 185–189. doi: 10.24425/jwld.2020.133493
dc.relation.referencesenWąs, A., Sulewski, P., Krupin, V., Popadynets, N., MalakRawlikowska, A., Szymańska, M., Skorokhod, I., &
dc.relation.referencesenWysokiński, M. (2020). The potential of agricultural
dc.relation.referencesenbiogas production in Ukraine–impact on GHG emissions
dc.relation.referencesenand energy production. Energies, 13(21), 5755.
dc.relation.referencesendoi:10.3390/en13215755
dc.relation.urihttps://saf.org.ua/news/1042/
dc.relation.urihttp://journals.nubip.edu.ua/index.php/Economica/article/view/8824
dc.relation.urihttp://market.avianua.com/?p=48
dc.relation.urihttps://eco.kiev.ua/assets/files/Dod.5.-Vidhodi-silskogo-gospodarstva.pdf
dc.relation.urihttps://saf.org.ua/wp-content/uploads/2018/05/positionpaper-uabio-20-ua.pdf
dc.relation.urihttps://uabio.org/news/9351/
dc.relation.urihttps://zakon.rada.gov.ua/laws/show/187/98-%D0%B2%D1%80#Text
dc.relation.urihttps://uspp.ua/assets/doc/uspp-biomass.pdf
dc.relation.urihttps://ukrstat.org/en/druk/publicat/kat_e/publ1_e.htm
dc.relation.urihttps://zakon.rada.gov.ua/rada/show/vb089217-96#Text
dc.relation.urihttps://ecolog-ua.com/news/syrovyna-dlya-biogazu
dc.relation.urihttps://saf.org.ua/news/590/
dc.rights.holder© Національний університет “Львівська політехніка”, 2021
dc.rights.holder© Chernysh Y., Shtepa V., Roy I., Chubur V., Skvortsova P., Ivlieva A., Danilov D., 2021
dc.subjectorganic wastes
dc.subjectanaerobic digestion
dc.subjectwaste potential forecast
dc.subjectbiofuels
dc.subjectbiofertilizers
dc.subjectdigestate
dc.titleThe potential of organic waste as a substrate for anaerobic digestion in Ukraine: trend definitions and environmental safety of the practices
dc.typeArticle

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