Peer-reviewed articles 17,970 +



Title: INTEGRATED MODELING OF STAGNATING WATER AND URBAN DRAINAGE SYSTEMS

INTEGRATED MODELING OF STAGNATING WATER AND URBAN DRAINAGE SYSTEMS
Marcell Knolmar
10.5593/sgem2024/3.1
1314-2704
English
24
3.1
•    Prof. DSc. Oleksandr Trofymchuk, UKRAINE 
•    Prof. Dr. hab. oec. Baiba Rivza, LATVIA
The drainage challenges of a large settlement encompass both urban areas and adjacent agricultural and industrial zones. Surface runoff from increasingly impermeable subcatchments flows into the underground gravitational closed conduits drainage network of the settlement during rapid storm events, a phenomenon effectively modeled using hydrodynamic simulation tools such as SWMM. Meanwhile, excess precipitation water that fails to infiltrate the soil accumulates predominantly on agricultural lands outside the settlement, necessitating drainage through gravitational open channels. Typically, pumping stations are deployed to provide the requisite external energy. Steady flow simulation models like HEC-RAS are applied to accurately simulate water flow in open channels during longer water stagnation periods.
Integrating the drainage systems of urban runoff and stagnant water is essential for capturing dynamic events effectively. This integration involves coupling unsteady models like HEC-RAS with hydrodynamic urban SWMM simulations. The resulting integrated model enables comprehensive simulation of the entire drainage network, facilitating predictions of system capacity during storm events, including periods of water stagnation.
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[4] Banescu A., Georgescu L. P., Iticescu C., Rusu E, Analysis of the flood risk agriculturals enclosures from the Danube delta using 2D modeling, Case study Pardina enclosure, International Multidisciplinary Scientific GeoConference SGEM, Bulgaria, vol. 19/issue 3.1, 2019.
[5] Kurniawan B., Sasmita F. S., Alviana S., Application of Hec-Ras Technology to irrigation and water building in agricultural businesses, INCITEST IOP Conf. Series: Materials Science and Engineering, Indonesia, vol. 879, 2020.
[6] HEC-RAS River Analysis System Hydraulic Reference Manual, US Army Corps of Engineers, Hydrologic Engenering Center, Version 5.0.7, United States, 2019.
[7] Storm and Sanitary Analysis (SSA), User’s Guide, Autodesk, United States, 2019.
[8] Rossman L.A., Storm Water Management Model, User’s Manual, Version 5.0, U.S. Environmental Protection Agency, United States, 2010.
The research presented in this article was carried out with the support of the RRF-2.3.1-21-2022-00008 project, by the National Research, Development and Innovation Office.
conference
Proceedings of 24th International Multidisciplinary Scientific GeoConference SGEM 2024
24th International Multidisciplinary Scientific GeoConference SGEM 2024, 1 - 07 July, 2024
Proceedings Paper
STEF92 Technology
International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM
SWS Scholarly Society; Acad Sci Czech Republ; Latvian Acad Sci; Polish Acad Sci; Russian Acad Sci; Serbian Acad Sci and Arts; Natl Acad Sci Ukraine; Natl Acad Sci Armenia; Sci Council Japan; European Acad Sci, Arts and Letters; Acad Fine Arts Zagreb Croatia; Croatian Acad Sci and Arts; Acad Sci Moldova; Montenegrin Acad Sci and Arts; Georgian Acad Sci; Acad Fine Arts and Design Bratislava; Russian Acad Arts; Turkish Acad Sci.
129-136
1 - 07 July, 2024
website
9682
HEC-RAS, SWMM, stagnating water, urban drainage, coupling models

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