CURRENT STATUS AND IMPACT OF RECYCLING IN REPUBLIC OF SERBIA
DOI:
https://doi.org/10.18623/rvd.v23.5353Keywords:
Circular Economy, Environmental Protection, Sustainable Development, Waste TreatmentAbstract
One of the biggest challenges of modern society is the management of spent and discarded materials. Due to the continuous growth of the world’s population, waste generation is steadily increasing. The aim of this paper is to present the current state of the art of recycling in the Republic of Serbia, emphasizing the importance of understanding the basic elements of waste management. The implemented laws and regulations in the field of waste management provide a solid foundation for further progress in this area of environmental protection. The primary stages of proper waste management include: (1) generation, (2) collection, (3) sorting, (4) transportation and distribution, and (5) treatment or disposal. Selecting an effective solid waste treatment process remains challenging due to the variability and composition of input materials. In 2024, a total of 8.15 million tonnes (Mt) of waste was generated in the Republic of Serbia, of which 0.11 Mt was classified as hazardous. Therefore, appropriate waste management represents one of the most important components of a functional green economy, promoting environmental protection and the social sustainability of local communities.
References
Ayilara, M. S., Olanrewaju, O. S., Babalola, O. O., & Odeyemi, O. (2020). Waste management through composting: Challenges and potentials. Sustainability, 12(11), 4456.
Bayar, Y., Gavriletea, M. D., Sauer, S., & Paun, D. (2021). Impact of municipal waste recycling and renewable energy consumption on CO2 emissions across the European Union (EU) member countries. Sustainability, 13(2), 656.
Belis, C., Djatkov, D., Dobricic, S., DE, M., Kolarević, S., Arias, N. C., ... & Lettieri, T. (2024). Status of environment and climate in the Western Balkans, Publications Office of the European Union.
Beo Čista Energija (2024), https://www.bcenergy.rs/belgrade-waste-management-ppp-project/ppp-project-scope/ (Accessed 01.02.2026.)
Beyene, H. D., Werkneh, A. A., & Ambaye, T. G. (2018). Current updates on waste to energy (WtE) technologies: a review. Renewable Energy Focus, 24, 1-11.
Chintala, V. (2018). Production, upgradation and utilization of solar assisted pyrolysis fuels from biomass–A technical review. Renewable and Sustainable Energy Reviews, 90, 120-130.
Das, A. K., Hossain, M. F., Khan, B. U., Rahman, M. M., Asad, M. A. Z., & Akter, M. (2025). Circular economy: A sustainable model for waste reduction and wealth creation in the textile supply chain. SPE Polymers, 6(1), e10171.
Demirbas A., (2011). Waste management, waste resource facilities and waste conversion processes, Energy Conversion and Management 52 (2): 1280-1287.
Dlamini, S., Simatele, M. D., & Serge Kubanza, N. (2019). Municipal solid waste management in South Africa: from waste to energy recovery through waste-to-energy technologies in Johannesburg. Local environment, 24(3), 249-257.
Eneh, O. C. (2021). Green chemistry models for municipal electronic waste treatment for resource recovery, repair, recycling and reuse in Nigeria. Clean Technologies and Environmental Policy, 23(4), 1169-1178.
Serbian Environmental Protection Agency. (2024). Report on the state of the environment in the Republic of Serbia for 2023. Ministry of Environmental Protection.
Serbian Environmental Protection Agency. (2025). Report on the State of the Environment in the Republic of Serbia for 2024. Ministry of Environmental Protection.
European Parliament and Council of the European Union. (1994). Directive 94/62/EC on packaging and packaging waste (as amended by Directive 2018/852, 2018). Official Journal of the European Union.
European Parliament and Council of the European Union. (2008). Directive 2008/98/EC on waste and repealing certain Directives (as amended by Directive (EU) 2018/851). Official Journal of the European Union.
European Parliament and Council of the European Union. (2019). Directive (EU) 2019/904 on the reduction of the impact of certain plastic products on the environment. Official Journal of the European Union.
European Parliament and Council of the European Union. (2023). Regulation (EU) 2023/1542 concerning batteries and waste batteries, amending Directive 2008/98/EC and Regulation (EU) 2019/1020 and repealing Directive 2006/66/EC. Official Journal of the European Union.
European Parliament and Council of the European Union. (2024). Regulation (EU) 2024/1157 on shipments of waste, amending Regulations (EU) No 1257/2013 and (EU) 2020/1056 and repealing Regulation (EC) No 1013/2006. Official Journal of the European Union.
European Parliament and Council of the European Union. (2025). Regulation (EU) 2025/40 on packaging and packaging waste. Official Journal of the European Union.
Fang, Y., Paul, M. C., Varjani, S., Li, X., Park, Y. K., & You, S. (2021). Concentrated solar thermochemical gasification of biomass: Principles, applications, and development. Renewable and Sustainable Energy Reviews, 150, 111484.
Foster, W., Azimov, U., Gauthier-Maradei, P., Molano, L. C., Combrinck, M., Munoz, J., ... & Patino, L. (2021). Waste-to-energy conversion technologies in the UK: Processes and barriers–A review. Renewable and Sustainable Energy Reviews, 135, 110226.
Ghazali, E., Johari, M. A. M., Fauzi, M. A., & Nor, N. M. (2022). An overview of characterisation, utilisation, and leachate analysis of clinical waste incineration ash. International journal of environmental research, 16(5), 69.
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.
Government of the Republic of Serbia. (2022). Waste Management Program of the Republic of Serbia 2022–2031. Official Gazette of the Republic of Serbia.
Government of the Republic of Serbia. (2025). Regulation on the Adoption of the Packaging Waste Reduction Plan for the Period 2025–2029. Official Gazette of the Republic of Serbia, No. 21/2025-7.
Government of the Republic of Serbia. (n.d.). Program for the Development of Circular Economy for the Period 2026–2030 (in preparation).
Gutberlet J., Uddin S. M. N,. Household waste and health risks affecting waste pickers and the environment in low-and middle-income countries, International journal of occupational and environmental health, 23(4): 299-310, 2017.
Hasan, M. M., Rasul, M. G., Khan, M. M. K., Ashwath, N., & Jahirul, M. I. (2021). Energy recovery from municipal solid waste using pyrolysis technology: A review on current status and developments. Renewable and Sustainable Energy Reviews, 145, 111073.
Hatab, A. A., Cavinato, M. E. R., Lindemer, A., & Lagerkvist, C. J. (2019). Urban sprawl, food security and agricultural systems in developing countries: A systematic review of the literature. Cities, 94, 129-142.
Haupt, M., Vadenbo, C., & Hellweg, S. (2017). Do we have the right performance indicators for the circular economy?: insight into the Swiss waste management system. Journal of Industrial Ecology, 21(3), 615-627.
Huo, C., & Chen, L. (2024). The impact of land transfer policy on sustainable agricultural development in China. Scientific Reports, 14(1), 7064.
Iacovidou, E., Velis, C. A., Purnell, P., Zwirner, O., Brown, A., Hahladakis, J., ... & Williams, P. T. (2017). Metrics for optimising the multi-dimensional value of resources recovered from waste in a circular economy: A critical review. Journal of cleaner production, 166, 910-938.
Ignjatović, J., Filipović, S., & Radovanović, M. (2024). Challenges of the green transition for the recovery of the Western Balkans. Energy, Sustainability and Society, 14, Article 21.
Jiang, W., Kumar, A., & Adamopoulos, S. (2018). Liquefaction of lignocellulosic materials and its applications in wood adhesives—A review. Industrial Crops and Products, 124, 325-342.
Kalyani, K. A., & Pandey, K. K. (2014). Waste to energy status in India: A short review. Renewable and sustainable energy reviews, 31, 113-120.
Kan A., (2009). General characteristics of waste management: A review, Energy Education Science and Technology Part a-Energy Science and Research, 23: 55–69.
Kaza, S., Yao, L., Bhada-Tata, P., & Van Woerden, F. (2018). What a waste 2.0: a global snapshot of solid waste management to 2050. World Bank Publications.
Kirchherr, J., Yang, N. H. N., Schulze-Spüntrup, F., Heerink, M. J., & Hartley, K. (2023). Conceptualizing the circular economy (revisited): an analysis of 221 definitions. Resources, conservation and recycling, 194, 107001.
Koshti, R., Mehta, L., & Samarth, N. (2018). Biological recycling of polyethylene terephthalate: a mini-review. Journal of Polymers and the Environment, 26(8), 3520-3529.
Koyama, M., Yamamoto, S., Ishikawa, K., Ban, S., & Toda, T. (2017). Inhibition of anaerobic digestion by dissolved lignin derived from alkaline pre-treatment of an aquatic macrophyte. Chemical Engineering Journal, 311, 55-62.
Lee, A., & Liew, M. S. (2021). Tertiary recycling of plastics waste: an analysis of feedstock, chemical and biological degradation methods. Journal of Material Cycles and Waste Management, 23(1), 32-43.
Li, H., Feng, S., Yuan, Z., Wei, Q., & Xu, C. C. (2017). Highly efficient liquefaction of wheat straw for the production of bio-polyols and bio-based polyurethane foams. Industrial crops and products, 109, 426-433.
Li, J., An, D., Shi, Y., Bai, R., & Du, S. (2024). A review of the physical and chemical characteristics and energy-recovery potential of municipal solid waste in China. Energies, 17(2), 491.
Longfor N. R., Istrate I. R., Qian, X. (2023) Mitigating greenhouse gas emissions from municipal solid waste in Sub-Saharan Africa via sustainable waste management: An economic benefit assessment, Resources, Conservation & Recycling Advances, 20 (200192).
Lou, X. F., & Nair, J. (2009). The impact of landfilling and composting on greenhouse gas emissions–a review. Bioresource technology, 100(16), 3792-3798.
Malav, L. C., Yadav, K. K., Gupta, N., Kumar, S., Sharma, G. K., Krishnan, S., ... & Bach, Q. V. (2020). A review on municipal solid waste as a renewable source for waste-to-energy project in India: Current practices, challenges, and future opportunities. Journal of Cleaner Production, 277, 123227.
Mayer, F., Bhandari, R., & Gäth, S. (2019). Critical review on life cycle assessment of conventional and innovative waste-to-energy technologies. Science of the total environment, 672, 708-721.
Ministry of Environmental Protection of the Republic of Serbia. (2010). Rulebook on Waste Categorization and Testing. Official Gazette of the Republic of Serbia, Nos. 56/2010, 93/2019, 39/2021, 65/2024.
Ministry of Environmental Protection of the Republic of Serbia. (2010). Rulebook on Waste Electrical and Electronic Equipment. Official Gazette of the Republic of Serbia, No. 99/2010.
Ministry of Environmental Protection of the Republic of Serbia. (2010). Rulebook on Batteries and Accumulators. Official Gazette of the Republic of Serbia, No. 86/2010.
Ministry of Environmental Protection of the Republic of Serbia. (2010). Rulebook on Fluorescent Tubes. Official Gazette of the Republic of Serbia, No. 97/2010.
Ministry of Environmental Protection of the Republic of Serbia. (2012). Rulebook on Titanium Dioxide Waste. Official Gazette of the Republic of Serbia, No. 1/2012.
Ministry of Environmental Protection of the Republic of Serbia. (2011). Rulebook on PCB Waste. Official Gazette of the Republic of Serbia, No. 37/2011.
Nanda, S., & Berruti, F. (2021). A technical review of bioenergy and resource recovery from municipal solid waste. Journal of hazardous materials, 403, 123970.
National Assembly of the Republic of Serbia. (2018). Law on Packaging and Packaging Waste. Official Gazette of the Republic of Serbia, No. 36/2009, 95/2018.
National Assembly of the Republic of Serbia. (2015). Law on Mining and Geological Explorations. Official Gazette of the Republic of Serbia, No. 101/2015.
National Assembly of the Republic of Serbia. (2025). Law on Waste Management. Official Gazette of the Republic of Serbia, No. 109/2025.
Nunes, L. J. R., Matias, J. C. O., & Catalão, J. P. S. (2014). Mixed biomass pellets for thermal energy production: A review of combustion models. Applied Energy, 127, 135-140.
Ohnishi, S., Fujii, M., Ohata, M., Rokuta, I., & Fujita, T. (2018). Efficient energy recovery through a combination of waste-to-energy systems for a low-carbon city. Resources, Conservation and Recycling, 128, 394-405.
Ohnishi, S., Fujii, M., Ohata, M., Rokuta, I., & Fujita, T. (2018). Efficient energy recovery through a combination of waste-to-energy systems for a low-carbon city. Resources, Conservation and Recycling, 128, 394-405.
Petrović, J., Simić, M., Mihajlović, M., Koprivica, M., Kojić, M., & Nuić, I. (2021). Upgrading fuel potentials of waste biomass via hydrothermal carbonization. Hemijska industrija, 75(5), 297-305.
Pilapitiya, PGC N. T., Ratnayake A. S., (2024). The world of plastic waste: a review, Cleaner Materials 11 (100220).Pollmann, K., Kutschke, S., Matys, S., Raff, J., Hlawacek, G., & Lederer, F. L. (2018). Bio-recycling of metals: Recycling of technical products using biological applications. Biotechnology Advances, 36(4), 1048-1062.
Regional Cooperation Council. (2025). Revised Action Plan for the Implementation of the Sofia Declaration on the Green Agenda for the Western Balkans (2025–2030).
Regulation on the Adoption of the Packaging Waste Reduction Plan for the Period 2025–2029. (2025). Official Gazette of the Republic of Serbia, No. 21/2025-7.
Regulation on the Method and Procedure for the Management of Construction and Demolition Waste. (2023). Official Gazette of the Republic of Serbia, Nos. 93/2023 & 94/2023 (corrigendum).
Risco, Á., Sucunza, D., & González-Egido, S. (2021). Chemical recovery of waste electrical and electronic equipment by microwave-assisted pyrolysis: A review. Journal of Analytical and Applied Pyrolysis, 159, 105323.
Sarker, T. R., Khatun, M. L., Ethen, D. Z., Ali, M. R., Islam, M. S., Chowdhury, S., ... & Akm, R. S. (2024). Recent evolution in thermochemical transformation of municipal solid wastes to alternate fuels. Heliyon, 10(17).
Shahnazari, A., Rafiee, M., Rohani, A., Nagar, B. B., Ebrahiminik, M. A., & Aghkhani, M. H. (2020). Identification of effective factors to select energy recovery technologies from municipal solid waste using multi-criteria decision making (MCDM): A review of thermochemical technologies. Sustainable energy technologies and assessments, 40, 100737.
Siddiqua A., Hahladakis J. N., Al-Attiya W. A. K. (2022). An overview of the environmental pollution and health effects associated with waste landfilling and open dumping, Environmental Science and Pollution Research, 29(39): 58514-58536. ,
Söderholm, P. (2020). The green economy transition: the challenges of technological change for sustainability. Sustainable Earth, 3(1), 6.
Statistical Office of the RS (2022), https://www.stat.gov.rs/sr-latn/vesti/statisticalrelease/?p=14061 (Accessed 02.02.2026.)
United Nations. (2015). Sustainable development goals: 17 goals to transform our world.
UNDP Serbia (2022), https://www.undp.org/serbia/projects/circular-communities-serbia (Accessed 01.02.2026.)
Varjani, S., Shahbeig, H., Popat, K., Patel, Z., Vyas, S., Shah, A. V., ... & Tabatabaei, M. (2022). Sustainable management of municipal solid waste through waste-to-energy technologies. Bioresource technology, 355, 127247.
Ventura, E., Futuro, A., Pinho, S. C., Almeida, M. F., & Dias, J. M. (2018). Physical and thermal processing of Waste Printed Circuit Boards aiming for the recovery of gold and copper. Journal of environmental management, 223, 297-305.
Wen, X., Luo, Q., Hu, H., Wang, N., Chen, Y., Jin, J., ... & Fang, W. (2014). Comparison research on waste classification between China and the EU, Japan, and the USA. Journal of Material Cycles and Waste Management, 16(2), 321-334.
Yi, S., Jang, Y. C., & An, A. K. (2018). Potential for energy recovery and greenhouse gas reduction through waste-to-energy technologies. Journal of Cleaner Production, 176, 503-511.
Yilmaz, S. (2025). The Impact of Environmental Protection Expenditures on Reducing Greenhouse Gas Emissions. Sustainability (2071-1050), 17(7).
Zaborowska, M., & Bernat, K. (2023). The development of recycling methods for bio-based materials–A challenge in the implementation of a circular economy: A review. Waste Management & Research, 41(1), 68-80.
Zhang, C., Hu, M., Di Maio, F., Sprecher, B., Yang, X., & Tukker, A. (2022). An overview of the waste hierarchy framework for analyzing the circularity in construction and demolition waste management in Europe. Science of the Total Environment, 803, 149892.
Zhang, Y., Cui, Y., Chen, P., Liu, S., Zhou, N., Ding, K., ... & Ruan, R. (2019). Gasification technologies and their energy potentials. In Sustainable resource recovery and zero waste approaches (pp. 193-206). Elsevier.
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