Ukraine currently has an imperfect system for the collection and transportation of municipal solid waste (MSW). This system needs to be improved and constantly adapted to the increasing volumes and types of household waste due to the growth of the urban population, improved welfare and changes in the residential, commercial and industrial sectors. The article identifies the peculiarities of Ukraine's environmental policy in the context of the European integration process. The main purpose of the article is to comprehensively cover the issues related to effective waste management, in particular, the logistical aspects of waste disposal, to develop a conceptual framework for the formation of a strategy for the implementation of environmental waste logistics in the context of sustainable and environmentally balanced development, and to determine the volume of accumulated waste. Practical experience of municipal solid waste management in Ukraine and developed countries are studied. The dependence of solid waste accumulation on the influence of key social, environmental and economic factors is identified, which makes it possible to predict its dynamics as a basis for making effective management decisions. The relevance of forming management decisions in the environmental logistics of solid waste to reduce the negative impact on the environment is demonstrated. The role of logistics in reducing waste and achieving economic, social and environmental goals is shown. The role of environmental information and environmental knowledge as a special resource in the innovation economy is highlighted.
1. Bondar, O. I., Baranovska, V. E., & Barinov, M. O. (2008). Waste management: domestic and foreign experience: manual. K.: Aiva Plus Ltd.
2. Principles of solid household waste management. Cooperation to solve the problem of waste: Collection of scientific works. (2009). Kharkiv: KNEU, 65-69.
3. Cosimato, S., & Troisi, O. (2014). The Influence of Green Innovation in Logistics Competitiveness and Sustainability. The DHL Case Study. 7th Toulon-Verona International Conference Excellence in Services,August 28-29, 2014, Liverpool, p.95-112. Retrieved from https://sites.les.univr.it/eisic/wp-content/uploads/2018/07/Cosimato-Tro...
4. Demchuk L., & Nonik L. (2024). Aktualnist vplyvu khimichnykh rechovyn i vidkhodiv na dovkillia. Stalyi rozvytok – stan ta perspektyvy. IV mizhnarodnyi naukovyi sympozium v ramkakh Erazmus+ Modul Zhan Mone «Kontseptsiia ekosystemnykh posluh: Yevropeiskyi dosvid» («EE4CES»), 13–16 February 2024, Lviv – Slavske, Ukraina.
5. Kim, N.-J., & Chun, S.-K. (2012). The Effect of Leachate and Organic Waste Water Injection on Decomposition Characteristics of Landfill Waste. Journal of Korea Society of Waste Management, 29(8), 697-704. doi: https://doi.org/10.9786/kswm.2012.29.8.697
6. Kotsiuba, I. G., Shcherbatiuk, A. F., & Godovska, T. B. (2016). Forecasting the volume of solid household waste generation in the city of Zhytomyr. Bulletin of the National Technical University "Kharkiv Polytechnic Institute". Collection of scientific papers. Series: "Mechanical and technological systems and complexes", 7(1179), 95-100.
7. Kotsiuba, I., Lyko, S., Lukianova,V., & Anpilova, Y. (2018). Computational dynamics of municipal wastes generation in Zhytomyr city. Zbirnyk naukovykh prats: Ekolohichna bezpeka ta pryrodokorystuvannia, 1(25), 33-44.
8. Kotsiuba, I. G., & Khrutba, V.O (2019). Methodology of environmental crowdsourcing in the field of waste management. Scientific and practical journal "Ecological Sciences", 2(25), 203-205. doi: https://doi.org/10.32846/2306-9716-2019-2-25-34
9. Kotsiuba, I., Lyko, S., Lukianova, V., & Anpilova, Y. (2020). Scientific and theoretical substantiation of accumulation of solid household waste in Zhytomyr region. Collection of scientific papers: Ecological safety and nature management, 4(36), 56-65. doi: http://dx.doi.org/10.32347/2411-4049.2020.4.56-65
10. Kotsiuba, I. G., Lefter, Y. O., Nonik, L. Y., Yelnikova, T. O., & Gerasymchuk, O. L. (2021). Analysis of modern experience and directions of solving problems of municipal solid waste management. Ecological sciences: scientific and practical journal, 6(39), 166-170. doi: https://doi.org/10.32846/2306-9716/2021.eco.6-39.28
11. Kotsiuba, I., Herasymchuk, O., Shamrai, V., Lukianova, V., Anpilova, Y., Rybak, O., & Lefter, I. (2023). A Strategic Analysis of the Prerequisites for the Implementation of Waste Management at the Regional Level. Ecological Engineering & Environmental Technology, 24(1), 55-66. doi: https://doi.org/10.12912/27197050/154918
12. Khrutba, V., Morozova, T., Kotsiuba, I., & Shamrai, V. (2021). Simulation Modeling for Predicting the Formation of Municipal Waste. In: Shkarlet S., Morozov A., Palagin A. (eds). Mathematical Modeling and Simulation of Systems (MODS'2020). MODS 2020. Advances in Intelligent Systems and Computing, 1265, 24–35. doi: https://doi.org/10.1007/978-3-030-58124-4_3
13. Melnyka, A., Kuklinskaa, K., Wolskaa, L., & Namiesnika, J. (2014). Chemical pollution and toxicity of water samples from stream receiving leachate from controlled municipal solid waste (MSW) landfill. Environmental Research, 135, 253–261. doi: http://dx.doi.org/10.1016/j.envres.2014.09.010
14. N., Long D., I. Hai, F., & Listowski, A. (2016). Water reclamation and nitrogen extraction from municipal solid waste landfill leachate. Desalination and Water Treatment, 57(60), 29220-29227. doi: http://dx.doi.org/10.1080/194439941169949
15. Podchashinskiy, Y., Kotsiuba, I., & Yelnikova, T. (2017). Math modeling and analysis of the impact of municipal solid waste landfill leachate on the environment. Eastern-European Journal of Enterprise Technologies, 1(10), 4-10. doi: http://doi.org/10.15587/1729-4061.2017.91033