Integrated Engineering Approach to Stable Development of Water Supply and Sewerage Systems
https://doi.org/10.31675/1607-1859-2026-28-1-238-248
Abstract
Purpose: To substantiate the need to apply systems and complex engineering approaches to ensure a stable development of water supply and sewerage systems, as well as the to improve criteria for evaluating the effectiveness of their operation based on the calculation of hydraulic indicators.
Methodology: Complex analysis, classification of pipeline networks, reconstruction according to the level of operational resource losses, quantitative hydraulic assessment of pipes using the coefficient of hydraulic operational efficiency.
Research findings: Traditional methods of the network reconstruction and criteria for assessing their operational quality, including the coefficient of hydraulic efficiency, are analyzed. Systems and complex engineering approaches are based on the comprehensive assessment of the technical, organizational, managerial and economic aspects of the functioning and development of networks.
Value: The effectiveness of applying systems and complex engineering approaches to the reconstruction and operation of engineering networks is substantiated and proved. The necessity of introducing intelligent technologies for monitoring and rebuilding pipelines is substantiated, as well as the need for training specialists in this field.
About the Authors
A. I. MokhovRussian Federation
Andrey I. Mokhov, DSc, Professor
19, Universitetskaya Str., 141982, Moscow, Dubna
D. I. Shlychkov
Russian Federation
Dmitriy I. Shlychkov, PhD, A/Professor
26, Yaroslavskoe Road, 129337, Moscow
A. G. Chelonenko
Russian Federation
Andrey G. Chelonenko, Research Assistant
9, Moskovskii Ave., 190031, Saint-Petersburg
S. V. Kondrashova
Russian Federation
Sofya V. Kondrashova, Graduate Student
26, Yaroslavskoe Road, 129337, Moscow
References
1. Semechkin A.E. System Analysis and System Engineering. Moscow: SvS–Argus, 2005. 536 p. (In Russian)
2. Anokhin P.K. Selected Papers. Philosophical Aspects of the Functional System Theory. Moscow: Nauka, 1978. (In Russian)
3. Lapkin M.M., Kiryushin V.A., Kozeevskaya N.A. P.K. Anokhin, a Creator of the Theory of a Functional System (dedicated to the 120th anniversary of the birth of Academician Peter Kuzmich Anokhin). Rossiiskii mediko-biologicheskii vestnik im. akad. I.P. Pavlova. 2018; (1). Available: https://cyberleninka.ru/article/n/p-k-anohin-sozdatel-teorii-funktsionalnoy-sistemyk-120-letiyu-so-dnya-rozhdeniya-akademika-petra-kuzmicha-anohina (In Russian)
4. Korol E.A., Dudina A.G., Petrosyan R.S. Systematization of Conceptual Apparatus for Technological Efficiency of Construction Systems in Scientific and Methodological Literature. Zhilishchnoe stroitel'stvo. 2024; (7): 32–37. (In Russian)
5. Korol E.A., Dudina A.G., Petrosyan R.S. Variable Approaches to Assessing Manufacturability of Construction Systems. Stroitel'stvo: nauka i obrazovanie. 2024: 14 (3): 119–130. (In Russian)
6. Korol E.A., Rimshin V.I. Operation of Engineering Networks, Systems and Equipment. Ekspluatatsiya inzhenernykh setei, sistem i oborudovaniya. Moscow: ASV. 2023. 406 p. (In Russian)
7. Prodous O.A., Shlychkov D.I., Chelonenko A.G. Classification of Sewer Networks by Sediment Layer Thickness in Trough Part of Pipes. Izvestiya vuzov. Investitsii. Stroitel'stvo. Nedvizhimost'. 2024; 14 (1): 96–104. DOI: 10.21285/2227-2917-2024-1-96-104 (In Russian)
8. Telichenko V.I., Korol E.A., Kagan P.B., Kulikova E.N. System Engineering of Target Construction Management Programs. Moscow: DIA, 2010. 224 p. (In Russian)
9. Gusakov A.A. (Ed.), Bogomolov Yu.M., Brekhman A.I., Vaganyan G.A. System Engineering of Construction. Encyclopedia. Dictionary. 2nd edn. Moscow, 2004. 319 p. (In Russian)
10. Sudkov K.V., Gusakov A.A. (Eds.). Information Models of Functional Systems. Moscow: Novoe tysyacheletie, 2004. Pp. 7–114. (In Russian)
11. Mokhov A.I. Different System and Complex Engineering Approaches to Creation of Engineering Systems. Elektrotekhnicheskie i informatsionnye kompleksy i sistemy. 2011; 7 (1): 3–7. (In Russian)
Review
For citations:
Mokhov A.I., Shlychkov D.I., Chelonenko A.G., Kondrashova S.V. Integrated Engineering Approach to Stable Development of Water Supply and Sewerage Systems. Vestnik Tomskogo gosudarstvennogo arkhitekturno-stroitel'nogo universiteta. JOURNAL of Construction and Architecture. 2026;28(1):238-248. (In Russ.) https://doi.org/10.31675/1607-1859-2026-28-1-238-248
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