This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Antimonopoly Committee of Ukraine (2018). Report 2017. Retrieved from http://www.amc.gov.ua.Antimonopoly Committee of Ukraine (2018). . Retrieved from http://www.amc.gov.ua.Search in Google Scholar
State Statistics Service of Ukraine (2017 a). Environment of Ukraine. Retrieved from http://www.ukrstat.gov.ua.State Statistics Service of Ukraine (2017 a). . Retrieved from http://www.ukrstat.gov.ua.Search in Google Scholar
Craighill, A. & Powell, J. (1996). Lifecycle assessment and economic evaluation of recycling: A case study. Resources, Conservation and Recycling, 17, 75–96. 10.1016/0921-3449(96)01105-6.CraighillA. & PowellJ. (1996). Lifecycle assessment and economic evaluation of recycling: A case study. , 17, 75–96. 10.1016/0921-3449(96)01105-6.Open DOISearch in Google Scholar
Ciuła J., Gaska K., Iljuczonek Ł., Generowicz A., & Koval V. (2019). Energy efficiency economics of conversion of biogas from the fermentation of sewage sludge to biomethane as a fuel for automotive vehicles. Architecture Civil Engineering Environment, 12(2), 131–140. doi: 10.21307/acee-2019-029.CiułaJ.GaskaK.IljuczonekŁ.GenerowiczA., & KovalV. (2019). Energy efficiency economics of conversion of biogas from the fermentation of sewage sludge to biomethane as a fuel for automotive vehicles. , 12(2), 131–140. doi: 10.21307/acee-2019-029.Open DOISearch in Google Scholar
Koval, V., Petrashevska, A., Popova, O., Mikhno, I., & Gaska, K. (2019). Methodology of ecodiagnostics on the example of rural areas. Architecture Civil Engineering Environment, 12(1), 139–144. doi: 10.21307/acee-2019-013.KovalV.PetrashevskaA.PopovaO.MikhnoI., & GaskaK. (2019). Methodology of ecodiagnostics on the example of rural areas. , 12(1), 139–144. doi: 10.21307/acee-2019-013.Open DOISearch in Google Scholar
Molgaard, C. (1995) Environmental impacts by disposal of plastic from municipal solid waste. Resources, Conservation and Recycling, 15, 51–63. https://doi.org/10.1016/0921-3449(95)00013-9,MolgaardC. (1995) Environmental impacts by disposal of plastic from municipal solid waste. , 15, 51–63. https://doi.org/10.1016/0921-3449(95)00013-9,10.1016/0921-3449(95)00013-9Search in Google Scholar
Björklund, A. & Finnveden, G. (2005). Recycling revisited – Life cycle comparisons of global warming impact and total energy use of waste management strategies. Resources, Conservation and Recycling, 44, 309–317. 10.1016/j.resconrec.2004.12.002.BjörklundA. & FinnvedenG. (2005). Recycling revisited – Life cycle comparisons of global warming impact and total energy use of waste management strategies. , 44, 309–317. 10.1016/j.resconrec.2004.12.002.Open DOISearch in Google Scholar
Cui, J., Forssberg, E. (2003). Mechanical recycling of waste electric and electronic equipment: a review. Journal of Hazardous Materials, 99, 243–263.CuiJ.ForssbergE. (2003). Mechanical recycling of waste electric and electronic equipment: a review. , 99, 243–263.10.1016/S0304-3894(03)00061-XSearch in Google Scholar
Ali, S. & Garforth, A. & Harris, D.H. & Rawlence, D.J & Uemichi, Y. (2002). Polymer waste recycling over “used” catalysts. Catalysis Today 75, 247–255. 10.1016/S0920-5861(02)00076-7.AliS. & GarforthA. & HarrisD.H. & RawlenceD.J & UemichiY. (2002). Polymer waste recycling over “used” catalysts. 75, 247–255. 10.1016/S0920-5861(02)00076-7.Open DOISearch in Google Scholar
Goto, M. (2010). Supercritical Water Process for the Chemical Recycling of Waste Plastics. AIP Conference Proceedings, 1251. 10.1063/1.3529267.GotoM. (2010). Supercritical Water Process for the Chemical Recycling of Waste Plastics. , 1251. 10.1063/1.3529267.Open DOISearch in Google Scholar
Hamad, K. & Kaseem, M. & Deri, F. (2013). Recycling of waste from polymer materials: An overview of the recent works. Polymer Degradation and Stability. 98. 2801–2812. 10.1016/j.polymdegradstab.2013.09.025.HamadK. & Kaseem, M. & DeriF. (2013). Recycling of waste from polymer materials: An overview of the recent works. . 98. 2801–2812. 10.1016/j.polymdegradstab.2013.09.025.Open DOISearch in Google Scholar
Ciuła J., Gaska K., Generowicz A., Hajduga G. (2018). Energy from Landfill Gas as an Example of Circular Economy, E3S Web Conference, 30, 03002, DOI: 10.1051/e3sconf/20183003002.CiułaJ.GaskaK.GenerowiczA.HajdugaG. (2018). Energy from Landfill Gas as an Example of Circular Economy, , 30, 03002, DOI: 10.1051/e3sconf/20183003002.Open DOISearch in Google Scholar
Garcia, J. & Robertson, M. (2017). The future of plastics recycling. Science. 358. 870-872. 10.1126/science.aaq0324.GarciaJ. & RobertsonM. (2017). The future of plastics recycling. . 358. 870-872. 10.1126/science.aaq0324.Open DOISearch in Google Scholar
Rahimi, A., Garcia, J. (2017). Chemical recycling of waste plastics for new materials production. Nature Reviews Chemistry, 1. 10.1038/s41570-017-0046.RahimiA.GarciaJ. (2017). Chemical recycling of waste plastics for new materials production. , 1. 10.1038/s41570-017-0046.Open DOISearch in Google Scholar
Lupinos, A., & urzhii, N. (2018). Analysis of trends of development of enterprise activity in the field of polymeric waste utilization in Ukraine. Management and Entrepreneurship: Trends of Development, (2), 55–63. doi:10.26661/2522-1566-2018-2/04-06LupinosA., & urzhiiN. (2018). Analysis of trends of development of enterprise activity in the field of polymeric waste utilization in Ukraine. , (2), 55–63. doi:10.26661/2522-1566-2018-2/04-06Open DOISearch in Google Scholar
Foolmaun, R.K., & Ramjeeawon, T. (2013). Comparative life cycle assessment and social life cycle assessment of used PET bottles in Mauritius. The International Journal of Life Cycle Assessment, 18, 155–171. https://doi.org/10.1007/s11367-012-0447-2FoolmaunR.K., & RamjeeawonT. (2013). Comparative life cycle assessment and social life cycle assessment of used PET bottles in Mauritius. , 18, 155–171. https://doi.org/10.1007/s11367-012-0447-210.1007/s11367-012-0447-2Search in Google Scholar
Bernardo CA, Simões CL, & Pinto LMC (2016). Environmental and economic life cycle analysis of plastic waste management options. A review. AIP Conference Proceedings, 1779, 140001. https://doi.org/10.1063/1.4965581.BernardoCASimõesCL, & PintoLMC (2016). Environmental and economic life cycle analysis of plastic waste management options. , 1779, 140001. https://doi.org/10.1063/1.4965581.10.1063/1.4965581Search in Google Scholar
Ghisellini P., Cialani C., & Ulgiati S. (2016). A review on circular economy: the expected transition to a balanced interplay of environmental and economic systems. Journal of Cleaner Production, 114, 11–32. https://doi.org/10.1016/j.jclepro.2015.09.007.GhiselliniP.CialaniC., & UlgiatiS. (2016). A review on circular economy: the expected transition to a balanced interplay of environmental and economic systems. , 114, 11–32. https://doi.org/10.1016/j.jclepro.2015.09.007.10.1016/j.jclepro.2015.09.007Search in Google Scholar
Law of Ukraine (1998). On Waste. Verkhovna Rada of Ukraine, 187/98-BP.Law of Ukraine (1998). .Search in Google Scholar
European Commission (2008). Directive 2008/98/EC on waste (Waste Framework Directive). Retrieved from http://ec.europa.eu/environment/waste/framework/European Commission (2008). . Retrieved from http://ec.europa.eu/environment/waste/framework/Search in Google Scholar
Plastics Europe (2018). Plastics – the Facts 2018. Retrieved from https://www.plasticseurope.org/en/resources/market-data.Plastics Europe (2018). . Retrieved from https://www.plasticseurope.org/en/resources/market-data.Search in Google Scholar
MacHOUSE (2017). The global packaging market: growth and development prospects. Retrieved from http://www3.weforum.org.MacHOUSE (2017). . Retrieved from http://www3.weforum.org.Search in Google Scholar
ASGARD (2018). WHITEPAPER v. 23-10-18 Decentralized crypto ecological fund. Retrieved from https://asgardecofund.io.ASGARD (2018). . Retrieved from https://asgardecofund.io.Search in Google Scholar
World Environment Day Outlook (2018). The state of plastics. Retrieved from https://wedocs.unep.org.World Environment Day Outlook (2018). . Retrieved from https://wedocs.unep.org.Search in Google Scholar
Ellen MacArthur Foundation (2016). The New Plastics Economy – Rethinking the Future of Plastics. World Economic Forum. Retrieved from http://www3.weforum.orgEllen MacArthur Foundation (2016). The New Plastics Economy – Rethinking the Future of Plastics. . Retrieved from http://www3.weforum.orgSearch in Google Scholar
The Secretariat of Basel Convention. (2013). Vital Waste Graphics 3. Retrieved from http://www.envsec.orgThe Secretariat of Basel Convention. (2013). . Retrieved from http://www.envsec.orgSearch in Google Scholar
Koval, V., Prymush, Y., & Popova, V. (2017). The influence of the enterprise life cycle on the efficiency of investment. Baltic Journal of Economic Studies, 3(5), 183–187. doi:10.30525/2256-0742/2017-3-5-183-187KovalV.PrymushY., & PopovaV. (2017). The influence of the enterprise life cycle on the efficiency of investment. , 3(5), 183–187. doi:10.30525/2256-0742/2017-3-5-183-187Open DOISearch in Google Scholar
Koval, V., Sribna, Y., Mykolenko, O., & Vdovenko, N. (2019). Environmental concept of energy security solutions of local communities based on energy logistics. 19th International Multidisciplinary Scientific GeoConference SGEM 2019, 19(5.3), 283–283. https://doi.org/0.5593/sgem2019/5.3/S21.036KovalV.SribnaY.MykolenkoO., & VdovenkoN. (2019). . 19th International Multidisciplinary Scientific GeoConference SGEM 2019, 19(5.3), 283–283. https://doi.org/0.5593/sgem2019/5.3/S21.03610.5593/sgem2019/5.3/S21.036Search in Google Scholar
Bezrukova A. (n.d.). Recycling plastic bottles as a business: equipment needed and amount of capital. Finbazis.com. Retrieved from http://finbazis.com/pererabotka-plastika-biznes (in Russian).BezrukovaA. (n.d.). Recycling plastic bottles as a business: equipment needed and amount of capital. . Retrieved from http://finbazis.com/pererabotka-plastika-biznes (in Russian).Search in Google Scholar
Koval, V., & Mikhno, I. (2019). Ecological sustainability preservation of national economy by waste management methods. Economics. Ecology. Socium, 3(2), 30–40.KovalV., & MikhnoI. (2019). Ecological sustainability preservation of national economy by waste management methods. , 3(2), 30–40.10.31520/2616-7107/2019.3.2-4Search in Google Scholar
Gaska, K., Generowicz, A., Zimoch, I., Ciuła, J., & Siedlarz D. (2018). A GIS based graph oriented algorithmic model for poly-optimization of waste management system. Architecture Civil Engineering Environment, 4(11), 152–159.GaskaK.GenerowiczA.ZimochI.CiułaJ., & SiedlarzD. (2018). A GIS based graph oriented algorithmic model for poly-optimization of waste management system. , 4(11), 152–159.10.21307/acee-2018-061Search in Google Scholar
Popova, O., Koval, V., Antonova, L., & Orel, A. (2019). Corporate social responsibility of agricultural enterprises according to their economic status. Management Theory and Studies for Rural Business and Infrastructure Development, 41(2), 277–289.PopovaO.KovalV.AntonovaL., & OrelA. (2019). Corporate social responsibility of agricultural enterprises according to their economic status. , 41(2), 277–289.10.15544/mts.2019.23Search in Google Scholar
Kostetska, K., Smol, M., & Gaska, K. (2018). Rational nature use of recreational management subjects on the basis of inclusive. Economics. Ecology. Socium, 2(4), 31–40.KostetskaK.SmolM., & GaskaK. (2018). Rational nature use of recreational management subjects on the basis of inclusive. , 2(4), 31–40.10.31520/2616-7107/2018.2.4-4Search in Google Scholar