This article discusses a promising direction focused on the use of recycled municipal solid waste in construction. In Russia, there are problems related to municipal solid waste management, which necessitates the modernization of this process and confirms the relevance of the issues raised. Analysis and use of the experience of foreign countries in the processing of municipal solid waste and its secondary use in Russia contributes to the search for a more environmentally responsible approach that entails both economic and social benefits. The use of solid municipal waste recycling products in construction is aimed at minimizing the negative impact on the environment and is a step towards the transition to a circular economy, where waste is turned into valuable resources.
The article reflects on the various methods of recycling municipal waste and analyzes the priority areas for the processing of municipal solid waste. In addition, examples of successful building projects using recycled products are given, and the challenges and prospects of this approach, as well as its significance for sustainable development and environmental responsibility in the construction industry, are revealed.
The article reflects on the various methods of recycling municipal waste and analyzes the priority areas for the processing of municipal solid waste. In addition, examples of successful building projects using recycled products are given, and the challenges and prospects of this approach, as well as its significance for sustainable development and environmental responsibility in the construction industry, are revealed.
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[23] Federal Law 458-FZ dated December 29, 2014 (last edition). URL: https://www.consultant.ru/document/cons_doc_LAW_172948/ (accessed 07/03/23)
[24] Sukhinina E.A. Construction of buildings from secondary raw materials, taking into account the requirements of environmental standards. Vestnik MGSU. 2021. 2. P186 – 201. URL: http://vestnikmgsu.ru/ru/component/sjarchive/issue/article.display/2021/2/186-201 (date of access: 07/03/2023)
[25] Perova K. Construction with zero wasteю RBC +, Innovations, Worldwide, 12/24/2020. [Electronic resource]. URL: https://plus.rbc.ru/news/5fd75aab7a8aa91cbf87e616 (accessed 07/03/2023)
[26] Vinogradova E.V., Murzina O.G., Tangiev A.M. Prospects for the use of plastic waste in construction. IVD. 2020. 10 (70). URL: http://www.ivdon.ru/ru/magazine/archive/n10y2020/6627 (date of access: 07/03/2023)
[27] Salim Kennouche, Houssemeddine Abdelli, Amrane Belaid, Brahim Hami. Reinforcement of building plaster by waste plastic and glass. Procedia Structural Integrity. 17. P. 170 – 176. URL: https://www.researchgate.net/publication/335391432_Reinforcement_of_building_plaster_by_waste_plastic_and_glass (accessed 07/03/2023)
[28] Tuskaeva Z.R., Kulikova E.N., Chukin E.A., Tagirov T.A. Green building: today and tomorrow. Innovations and investments. 2021. 2. P. 175 – 178.
[29] Dergunova A.V., Piksaikina A.A., Adylkhodzhaev A.I. Economic advantages of energy efficient technologies using local raw materials in green building. Expert: theory and practice. 2023. № 1 (20). P. 73 – 79. DOI: 10.51608/26867818_2023_1_73
[2] Glebova I., Kuchukbaeva A, Vorobyev A., Abdulganiev F. Increasing the attractiveness of megapolises: opportunities for regulating the ecological situation in urbanized territories. Relacoes Internacionais no Mundo Atual. 2022. 2 (35). P. 372 – 383.
[3] Tatibekova A., Altay M., Kuralbaev A., Markhayeva B., Karshalova A. Using Tools to Regulate the Transition to a Green Economy and Preserve the Environment for Countries Exporting Raw Materials. Journal of Environmental Management and Tourism, [S.l.]. 13 (7). P 2002 – 2009.
[4] Rybak V., Kryanev Y., Shichkin I., Livson M. State regulation as a comprehensive mechanism for the sustainable development of territories. Revista Jurídica. 01 (73). P. 831 – 844.
[5] Mayboroda V., Spirin P. Legal Regulation in The Field of Territorial Planning and Urban Zoning: Main Problems and Ways to Solve Them. Journal of Law and Sustainable Development. 2023. 11 (1). e0254. P. 01 – 15.
[6] Bantserova O., Kasimova A. Bionic Approach to the Organization of Architectural Objects in the Sustainable Development Paradigm. Civil Engineering and Architecture. 2023. 11 (2). P. 939 – 947.
[7] Klyuev S., Fediuk R., Ageeva M., Fomina E., Klyuev A., Shorstova E., Zolotareva S., Shchekina N., Shapovalova A., Sabitov L. Phase formation of mortar using technogenic fibrous materials. Case Studies in Construction Materials. 2022. V. 16. P. e01099.
[8] Khoruzhy, L., Katkov, Y., Katkova , E., Romanova, A., Dzhikiya, M. Sustainable Development of Agricultural Enterprises with an Active Environmental Stance: Analysis of Inter-Organizational Management Accounting. Journal of law and sustainable development.1 1 (3). P. 01 – 18.
[9] Glebova I., Berman S., Gribovskaya V., Housing construction: problems and prospects (as exemplified by Russia). Relacoes Internacionais no Mundo Atual. 2022. 2 (35). P. 182 – 196.
[10] Fedchenko E., Gusarova L., Lysenko A., Vankovich I., Chaykovskaya L, Savina N. Audit of National Projects as a Factor in Achieving Sustainable Development Goals. International Journal of Sustainable Development and Planning. 18 (5). P. 1319 – 1328.
[11] Rykova I.N., Shkodinsky S.V., Yurieva A.A. Foreign experience in regulating the treatment of solid municipal waste and its adaptation to Russian conditions. Economics, Entrepreneurship and Law. 2021. 11 (7). P. 1759 – 1776.
[12] Potravny I. M., Baakh D. Energy utilization of solid municipal waste in the context of low-carbon development. Management Sciences. 2021. 3. P. 6 – 22. URL: https://managementscience.fa.ru/jour/article/view/325 (date of access: 07/01/2023)
[13] Lunev G.G., Prokhotsky Yu.M. Recycling of secondary building resources. Problems and prospects of the industry on the example of Moscow. EKO. 2020. 4 (550). P. 166 – 192. URL: https://ecotrends.ru/index.php/eco/article/view/4010/0 (date of access: 07/02/2023)
[14] Di Maria F., Beccaloni E., Bonadonna L., Cini C., Confalonieri E., La Rosa G. et al. Minimization of spreading of SARS-CoV-2 via household waste produced by subjects affected by COVID-19 or in quarantine .Science of The Total Environment. 2020 743. P. 140803. DOI: 10.1016/j.scitotenv.2020.140803.
[15] Tolmachev M.N., Petrova O.A. Approaches to assessing and substantiating measures for financing the development of transport infrastructure in the Arctic zone of the Russian Federation. International Journal of Ecosystems and Ecology Science. 2022. 12 (4). С. 267 – 274.
[16] Klyuev S., Fediuk R., Ageeva M., Fomina E., Klyuev A., Shorstova E., Sabitov L., Radaykin O., Anciferov S., Kikalishvili D., de Azevedo Afonso R.G., Vatin N. Technogenic fiber wastes for optimizing concrete. Materials. 2022. V. 15(14). P. 5058.
[17] Klyuev S., Klyuev A., Fediuk R., Ageeva M., Fomina E., Amran M., Murali G. Fresh and mechanical properties of low-cement mortars for 3D printing. Construction and Building Materials. 2022. № 338. P. 127644. DOI:10.1016/j.conbuildmat.2022.127644.
[18] Fediuk R., Amran M., Klyuev S., Klyuev A. Increasing the performance of a fiber-reinforced concrete for protective facilities. Fibers. 2021. 9(11). 64.
[19] Makul N., Fediuk R., Amran M., Zeyad, Abdullah M., Klyuev S., Chulkova I., Ozbakkaloglu T., Vatin N., Karelina M., Azevedo A. Design strategy for recycled aggregate concrete: A review of status and future perspectives. Crystals. 2021. 11(6). 695.
[20] Makul N., Fediuk R., Amran H.M.M., Zeyad Abdullah M., Azevedo A., Klyuev S., Vatin N., Karelina M. Capacity to develop recycled aggregate concrete in south east asia. Buildings. 2021. 11(6). 234.
[21] Muzalev S.V., Kukushkin S.N., Grazhdankina O.A., Nikolaenko A.V. Sustainable and environmental development of the energy economy in the "smart" regions of Russia. Borders of energy research. 2022. 10. P. 943270. DOI: 10.3389/fenrg.2022.943270.
[22] Stepanova T., Schneider O. Influence of social indicators of business entities on building an effective ecosystem. Ecosystems without borders: opportunities and challenges. EcoSystConfKlgtu 2021. Lecture notes on networks and systems, R. Polyakov (ed.). Cham: Springer, 2022. 474. P. 9 – 18. DOI: 10.1007/978-3-031-05778-6_2
[23] Federal Law 458-FZ dated December 29, 2014 (last edition). URL: https://www.consultant.ru/document/cons_doc_LAW_172948/ (accessed 07/03/23)
[24] Sukhinina E.A. Construction of buildings from secondary raw materials, taking into account the requirements of environmental standards. Vestnik MGSU. 2021. 2. P186 – 201. URL: http://vestnikmgsu.ru/ru/component/sjarchive/issue/article.display/2021/2/186-201 (date of access: 07/03/2023)
[25] Perova K. Construction with zero wasteю RBC +, Innovations, Worldwide, 12/24/2020. [Electronic resource]. URL: https://plus.rbc.ru/news/5fd75aab7a8aa91cbf87e616 (accessed 07/03/2023)
[26] Vinogradova E.V., Murzina O.G., Tangiev A.M. Prospects for the use of plastic waste in construction. IVD. 2020. 10 (70). URL: http://www.ivdon.ru/ru/magazine/archive/n10y2020/6627 (date of access: 07/03/2023)
[27] Salim Kennouche, Houssemeddine Abdelli, Amrane Belaid, Brahim Hami. Reinforcement of building plaster by waste plastic and glass. Procedia Structural Integrity. 17. P. 170 – 176. URL: https://www.researchgate.net/publication/335391432_Reinforcement_of_building_plaster_by_waste_plastic_and_glass (accessed 07/03/2023)
[28] Tuskaeva Z.R., Kulikova E.N., Chukin E.A., Tagirov T.A. Green building: today and tomorrow. Innovations and investments. 2021. 2. P. 175 – 178.
[29] Dergunova A.V., Piksaikina A.A., Adylkhodzhaev A.I. Economic advantages of energy efficient technologies using local raw materials in green building. Expert: theory and practice. 2023. № 1 (20). P. 73 – 79. DOI: 10.51608/26867818_2023_1_73
Muzalev S.V., Nikiforova E.V., Petrova O.A., Antonova O.V., Melnikova L.A. Recycling of municipal solid waste in construction. Construction Materials and Products. 2023. 6 (5). 7. https://doi.org/10.58224/2618-7183-2023-6-5-7