ANALYSIS OF MODERN SCIENTIFIC AND PRACTICAL RESEARCH IN THE FIELD OF WATER DISTRIBUTION SYSTEM
DOI:
https://doi.org/10.31650/2786-6696-2024-9-82-96Keywords:
sewage disposal, influencing factors, recovery technologies, repair, anti-corrosion coating, research analysis.Abstract
Solving the problem of ensuring the reliable functioning of drainage systems is important not only for Ukraine, but also for scientists around the world. Since these systems are critically important for life support, their uninterrupted operation is of strategic national importance. The issue of preservation and restoration of existing underground communications is gaining particular relevance due to increased environmental requirements. To protect groundwater from contamination with aggressive reagents, it is important to understand the reasons for the destruction of underground communications structures and effective methods of their repair. The article analyzes scientific works related to the problems of ensuring the trouble-free operation of objects that are part of the complex of constructions of sewer tunnels of the city. Grouped according to the direction of research work: research on the corrosion process in water drainage networks; analysis of modern ones; materials, laboratory tests; technologies for restoring drainage networks. Analysis of studies of the condition of structures of objects; research of materials and methods of repair and restoration of sewage tunnels and inspection shafts, which are currently used with high efficiency in domestic and foreign practice; development of technological and organizational solutions and restoration of destroyed sewage structures of drainage networks. The analysis of the researches of domestic scientists showed that the sewer tunnels of large cities of Ukraine are worn out as a result of long-term operation, ineffective solutions to protect structures from the influence of an aggressive environment, low-quality materials and structures used during construction. Restoring normative operational characteristics, increasing the durability of sewage tunnels is a costly and technically complex task, the solution of which is urgently needed to prevent accidents, including those with serious environmental consequences. Existing modern technologies of work performance, materials and structures used for repair and restoration works with different efficiency solve these problems, at the same time, the need to reduce costs for repair and restoration works requires the search for cost-effective materials, structures and methods of work performance. The analysis of the conducted studies shows that the problem of increasing the durability of sewage network structures should be solved comprehensively, taking into account the current situation.
References
[1] I. Abramovich, Seti i sooruzheniya vodootvedeniya. Raschet, proektirovanie, ekspluatatsiya, Osnova, 2005.
[2] A.I. Aleynikova, B.S. Sorokin, V.Yu. Sorokina, "Rozrakhunok efektyvnosti vprovadzhennia monitorynhu stiikoho funktsionuvannia kompleksu kanalizatsiinykh merezh i sporud", Naukovyi visnyk budivnytstva, vol. 105, pp. 51-57, 2021. doi.org/10.29295/2311-7257-2021-105-3-51-57.
[3] A. Aleynikova, P. Hulievskyi, I. Voronenko, "Organizational and technological solutions for the repair and restoration of sewage tunnels in the places adjacent to exploration mines", Komunalne hospodarstvo mist, vol. 4(178), pp. 118-124, 2023. https://doi.org/10.33042/2522-1809-2023-4-178-118-124.
[4] S.A. Zabelin, A.I. Aleinikova, "Suchasnyi pidkhid do doslidzhennia biohennoi korozii kanalizatsiinykh kolektoriv", Zbirnyk naukovykh prats Ukrainskoho derzhavnoho universytetu zaliznychnoho transportu, vol. 172, pp. 20-36, 2017.
[5] D. Goncharenko, S. Zаbеlin, А. Aleinikova, А. Аnishсhеnkо R. Hudilin, "Dеvеlорmеnt and study of hydmechanical method for cleaning sewage collectors from соntamiпаtiоn", Eastem-European joumal of enterprise technologies, vol. 5/10(95), pp. 40-47, 2018.
[6] D.F. Goncharenko, O.V. Starkova, A.I. Aleinikova, "Razrabotka avtomatizirovannoi sistemi vibora sposoba vosstanovleniya vodovodov s ispolzovaniem apparata nechetkoi logiki", Sistemi obrobki іnformatsії, vol. 124(8), pp. 18-23, 2014.
[7] D. Gontscharenko, A. Aleinikova, P. Hulievskyi, A.Ratschkowskij, "Effiziente Nutzung von Basaltelementen in Abwassernetzen", Korrespondenz Abwasser, vol. 70(1), pp. 33-35, 2023.
[8] O.V. Bryhada, Shliakhy zapobihannia nadzvychainym sytuatsiiam na betonnykh sporudakh vodovidvedennia, FOP Brovin, 2022.
[9] Yu.V. Bulgakov, Razrabotka organizatsionno-tekhnologicheskikh reshenii, povishayushchikh ekspluatatsionnuyu dolgovechnost kanalizatsionnikh tonnelnikh kollektorov: diss... kand. tekhn. nauk, KhNUBA, 2015.
[10] D.F. Goncharenko, Ekspluatatsiya, remont i vosstanovlenie setei vodootvedeniya, Konsum, 2008.
[11] A.О., Dobryaev, S.A. Zabelin, "Tekhnologicheskie osobennosti stroitelstva kanalizatsionnikh kollektorov s primeneniem polimernikh trub", Naukovii visnik budivnitstva, vol. 57, pp. 502-508, 2011.
[12] O. Kabus, V. Lykhohrai, "Creation of combined polymer concrete surface layer to increase the efficiency of polymer coatings in sulfuric acid environment", AIP Conference Proceedings, vol. 2684(1), 2023. https://doi.org/10.1063/5.0120064.
[13] V.N. Kis, "Sposob vosstanovleniya i zashchiti napornikh vodovodov s ispolzovaniem polietilenovikh izdelii", Resursoekonomnі materіali, konstruktsії, budіvlі ta sporudi, vol. 11, pp. 348-352, 2004.
[14] I.I. Kurovskii, "Sposob vosstanovleniya i zashchiti kanalizatsionnikh kollektorov s ispolzovaniem nikrolitovikh izdelii", Rusursoekonomichni materiali, konstruktsii, budivli ta sporudi, vol. 11, pp. 240-247, 2004.
[15] A.V. Kovalenko, Razrabotka tekhnologicheskikh reshenii, povishayushchikh effektivnost rabot pri likvidatsii avarii na kanalizatsionnikh kollektorakh: diss. ... kand. tekhn. nauk. KhGTUSA, 2002.
[16] I.V. Korinko, Nauchnoe obosnovanie i razrabotka organizatsionno-tekhnologicheskikh reshenii, povishayushchikh ekspluatatsionnuyu dolgovechnost sistem vodootvedeniya: diss... dokt. tekhn. nauk, 2003.
[17] N.K. Rozental, "Korroziya i zashchita betonnikh i zhelezobetonnikh konstruktsii sooruzhenii ochistki stochnikh vod", Beton i zhelezobeton, vol. 2, pp. 78-86, 2011.
[18] O.V. Starkova, "Modeli obosnovannogo vibora metoda remonta i vosstanovleniya uchastka kanalizatsionnoi seti", Naukovii vіsnik budіvnitstva, vol. 3(85), pp. 80-85, 2016.
[19] T. Kostyuk, A. Plugin, O. Starkova, D. Bondarenko, O. Borziak, "Software tools for development of a methodology for selecting construction materials according to their performance characteristics", AIP Conference Proceedings, vol. 2684 (1), 2023. https://doi.org/10.1063/5.0120109.
[20] Yu.B. Klein, Pidvyshchennia efektyvnosti remontno-vidnovliuvalnykh robit na kanalizatsiinykh merezhakh, roztashovanykh v vodonasychenykh gruntakh: diss. … kand. tekhn. nauk, KhNUBA, 1997.
[21] A.N. Mezhenskii, P.Ye. Uvarov, "Upravlenie proektami rekonstruktsii vneshnikh truboprovodnikh setei zhilishchno-kommunalnogo khozyaistva", Rekonstruktsіya zhitla, vol. 5, pp. 138-146, 2004.
[22] V. Iurchenko, E. Lebedeva, E. Brigada, "Environmental safety of the sewage disposal by the sewerage pipelines", Procedia Engineering, vol. 134, pp. 181-186, 2016. https://doi:10.1016/j.proeng.2016.01.058.
[23] V. Iurchenko, O. Melnikova, Yu. Levashova, N. Kosenko, "Corrosion of Concrete in a Water Management Structure in Conditions of Biogenic Sulfuric Acid Aggression", Key Engineering Materials, vol. 953, pp. 55-62, 2023. https://doi.org/10.4028/p-0GBXtM.
[24] H.O. Damiekin, Rozrobka tekhnolohichnykh rishen vidnovlennia konstruktsii tunelnykh kolektoriv: diss. ... kand. tekhn. nauk. Kharkiv, 1997.
[25] V.V. Zaporozhets, "Vozmozhnost primeneniya keramicheskogo kirpicha i sostavov pronikayushchei gidroizolyatsii dlya remonta i vosstanovleniya smotrovikh shakht setei vodootvedeniya", Resursoekonomichni materiali, konstruktsii, budivli ta sporudi, vol. 18, pp. 488-492, 2009.
[26] V.O. Voronenko, "Tekhnologiya i organizatsiya remonta kanalizatsionnogo shakhtnogo stvola s ispolzovaniem armirovannikh shlakolitikh konstruktsii", Naukovii visnik budivnitstva, vol. 36, pp. 35-40, 2006.
[27] D. Stein, Practical Guideline for the Application of Microtunneling Methods, Stein and Partner Germany, 2005.
[28] J. Horstmann, P. Pfannenschmidt, "Geokunststoffe im Rohrleitungsbau", Erd – und grundbau, pp. 29-33, 2002.
[29] W. Fischer, "Abwasserrohre im Vergleich", KA – Wasserwirtschaft. Abwasser, vol. 60(9), pp. 765-772, 2013.
[30] U. Schmidt, A. Bohatsch, "Massnagmen gegen Geruch und Korrosion im Mindener Kanalnetz umgesetzt", Korrespondenz Abwasser, vol. 61(4), pp. 291-297, 2014.
[31] D. Ufermann, M. Lohse, J. Muller-Rochholz, "Untersuchungen zur Korrosionbestendigkeit von Selbstverdichtendem Beton unter Schwefelsaureexposition", Korrespondenz Abwasser, vol. 57(3), pp. 231-239, 2010.
[32] R. Stein, "Stand und Einsatzbereice der Injektionsverfahren bei der Kanalsanierung", Korrespondenz Abwasser, vol. 61(5), pp. 386-398, 2014.
[33] M. Bodo, "Wie nachhaltig sind Kunststoffrohre zur Kanalsanierung", Wasser. Abwasser, vol. 1, p. 16, 2010.
[34] S. Ellerhorst, M. Schröder, B. Wöffen, "Wirtschaftlichkeit von Maßnahmen zur Schadensbehebung im öffentlichen Kanalnetz", KA – Wasserwirtschaft. Abwasser, vol. 47(5), pp. 674–680, 2000.
[35] W. Niederehe, "Statische Tragfähigkeit und Verformungs-verhalten vоn Abwasserkanalrohren", Wasser–Abwasser, vol. 148(1), pp. 84–86, 2007.
[36] R. Каmmеrеr, "Schadenentwicklung in Stеinzеugгоhгеn", Korrespondenz Abwasser, vol. 59(9), pp. 812–820, 2012.
[37] D. Mathews, А. Сох, "Polyethylene Encasement for External Corrosion Control for Iron Pipelines", Floridа Water Resources Journal, vоl. 12, pp. 44–49, 2015.
[38] S. Tаmbе, S. Jagtap, А. Chaurasiya, К. Joshi, "Evaluation of miсrоbiаl соrrоsion of ерoху соаting bу using sulphate reducing bacteria", Рrоgrеss in Оrgаniс Соаtings, vol. 94, pp. 49–55, 2016.
[39] М. Pazoki, "Соmраrаtiv Evaluation of Рoly Urethane and Poly Vinyl Chloride in Lining Concrеtе Sewer Pipes for Рrеvеnting Biological Corrosion", International Jоurnаl of Environmental Rеsеаrсh, vol. 10(2), pp. 305-312, 2016.
[40] К. Luo, S. Zhang, R. Wang, "The "Research Development of Tubular Textile Composites Application оn the Тrеnсhlеss Рiреline Inversion Liniпg Rehabi1itation Technology", Кеу Enginееring Materials, vol. 671, pp. 306-314, 2016.
[41] М.W. Kiliswa, "Composition and miсгоstruсturе of concrete mixtures subjected·to biogenic acid соrrоsiоn and their role in corrosion prediction of соnсrеtе outfall sewers", PhD Thesis. University of Cape Town, 2016.
[42] T. Gourley, G. Johnson, "The corrosion resistance of geopolymer concrete sewer pipe", Concrete in Australia, vol. 43(1), pp. 38-44, 2019. [Online]. Available: https://www.researchgate.net/publication/336639705_The_Corrosion_Resistance_of_Geopolymer_Concrete_Sewer_Pipe.
[43] E. Hewayde, G. Nakhla, E. Allouche, P. Mohan, "Beneficial impact of coatings on biological generation of sulfide in concrete sewer pipes", Structure and Infrastructure Engineering, vol. 3(3), pp. 267-277, 2007. https://doi:10.1080/15732470500424260.
[44] S. Taheri, G.P. Delgado, O. Agbaje, "Corrosion Inhibitory Effects of Mullite in Concrete Exposed to Sulfuric Acid Attack", Corros. Mater. Degrad, vol. 1(2), pp. 282-295, 2020. https://doi.org/10.3390/cmd1020014.
[45] Z. Suligowski, M. Orlovska-Szostak, "Umbau des Abwassersystems von Warschau", Korrespondenz Abwasser, vol. 59(1), pp. 20-25, 2012.
[46] N. Rohem, "Development and qualification of а new роlуmeric mаtriх laminated composite for pipe rераir", Соmроsitе Struсturеs, vol. 152, pp. 737-745, 2016.
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