Hydrological and hydraulic modeling using SWMM - Storm Water Management Model in the urban basin of Riacho Fundo I - Distrito Federal
DOI:
https://doi.org/10.33448/rsd-v10i1.11458Keywords:
Urban Drainage; Calibration; Rainfall; Flow.Abstract
This paper is about a hydrological and hydraulic modeling at the urban drainage system in the Administrative Region of Riacho Fundo I in the Federal District from the rainfall and runoff data monitored in 21 events between 2018 and 2019 with the SWMM model. The objective of the research was to analyze the calibration of the runoff model for the study area in order to validate the use of the tool in the management of urban drainage. The PCSWMM program was used, which has the SRTC automatic calibrator, which allows the variation of the parameters through the analysis of uncertainties. The simulation was carried out continuously, with the analysis of each event individually, with the event on 03/12/19 having the best objective functions when calibrated (ISE = 4.64, NSE = 0.851, R² = 0.865, SEE = 0.466, LSE = 17.4, RMSE = 3.28). With the calibrated model, 20 events were validated and although 40% of them presented negative NSE due to overestimation of Qpico, the model was considered satisfactory, considering that this problem can be attributed to the difficulty of measuring large flows. Therefore, the accomplishment in the calibration and validation of the proposed hydrological and hydraulic model for the region was achieved. These tools are important for the management of rainwater, including the dimensioning of systems with compensatory measures.
References
Aquino, I., Roig, H. L. Oliveira, E. Garnier, J., Guimarães, E., & Koide, S. (2018). Variação temporal da descarga sólida em suspensão e identificação de minerais a partir de aperfeiçoamento de método de amostragem automática no Córrego Riacho Fundo, Brasília, Distrito Federal. Geologia USP. Série Científica, 18(2), 171-185.
Barros, A., Neves, M. G. F. P., & Henrique, D.C. (2016). Variabilidade E Causas Na Geração De Vazão Em Bacias Urbanas: Estudo De Caso Do Riacho Do Sapo, Maceió-AL. Revista Eletrônica de Gestão e Tecnologias Ambientais. 4, 220.
Blumensaat, F. & Wolfram, M. & Krebs, P. (2012). Sewer model development under minimum data requirements. Environ. Earth Sci., 65(5), 1427–1437.
Brito, L. K. S., Costa, M. E. L. & Koide, S. (2020). Assessment of the Impact of Residential Urban Patterns of Different Hillslopes on Urban Drainage Systems and Ecosystem Services in the Federal District, Brazil. Sustainability, 12(14), 5859.
Broekhuizen, I., Leonhardt, G., Marsalek, J. & Viklander, M. (2019). Calibration event selection for green urban drainage modelling. Hydrology and Earth System Sciences Discussions.
Chung, E.-S. & Hong, W.-P. & Lee, K. S. & Burian, S. J. (2011). Integrated use of a continuous simulation model and multi-attribute decision making for ranking urban watershed management alternatives.” Water Resour. Manage, 25(2), 641–659.
Costa, M. E. L (2013). Monitoramento e modelagem das águas da drenagem urbana na bacia do lago Paranoá. Dissertação de Mestrado em Tecnologia Ambiental e Recursos Hídricos, Publicação PTARH.DM-148/2013, Departamento de Engenharia Civil e Ambiental, Universidade de Brasília, Brasília, DF, 179p.
De Paula, A. C. V. (2019). Estudo experimental e modelagem da lagoa de detenção do guará – DF: comportamento no amortecimento de cheias e na alteração da qualidade da água. Dissertação De Mestrado Em Tecnologia Ambiental E Recursos Hídricos da Universidade de Brasília.
Fileni, F. Costa, M. E. L. & Alves, C. M. A. (2019). The application of LIDs in Savanna region for mitigation of flooded areas. RBRH. 24.
Garcia, J. I. B. & Paiva, E. M. C. D. (2006). Monitoramento Hidrológico E Modelagem da Drenagem Urbana da Bacia do Arroio Cancela – RS. Revista Brasileira de Recursos Hídricos, 11(4), 99‐108.
James, W. (2005). Rules for responsible modeling (4a ed.). Computational Hydaulics International.
Kourtis, I. M. Kopsiaftis, G., Bellos, V., & Tsihrintzis, V. A. (2017). Calibration and validation of SWMM model in two urban catchments in Athens, Greec. Proceedings 15th International Conference on Environmental Science and Technology Rhodes, Greece.
Lian, Q., Yao, L., Uddin Ahmad, Z., Lei, X., Islam, F., Zappi, M. E., & Gang, D. D. (2019), Nonpoint source pollution. Water Environ Res, 91, 1114-1128.
Menezes, P. H. J. (2010). Avaliação do efeito das ações antrópicas no Processo de escoamento superficial e Assoreamento na bacia do Lago Paranoá. Dissertação De Mestrado. Universidade de Brasília – UnB do Instituto de Geociências – IG.
Müller, A., Österlund, H., &Marsalek, J. (2019). The pollution conveyed by urban runoff: A review of sources, Science of the Total Environment.
Niazi, M., Nietch, C., Maghrebi, M., Jackson, N., Bennett, B., Tryby, M. & Massoudieh, A. (2017). Storm Water Management Model: Performance Review and Gap Analysis. J. Sustainable Water Built Environ. 3.
Nunes, G. (2016). Aplicação do Modelo Swat no Estudo Hidrológico e de Qualidade da Água da Bacia do Lago Paranoá – DF. Dissertação de Mestrado em Tecnologia Ambiental e Recursos Hídricos Departamento de Engenharia Civil e Ambiental. 148pg.
Paule-Mercado C., & Lee, C. (2017). Calibration of the SWMM for a mixed land use catchment in Yongin, South Korea. Desalination And Water Treatment. 63. 381-388.
PDAD - Pesquisa Distrital por Amostra de Domicílios 2018. (2019). Governo Do Distrito Federal. Companhia De Planejamento Do Distrito Federal – CODEPLAN.
Pereira, A. S., Shitsuka, D. M., Parreira, F. J., & Shitsuka, R. (2018). Metodologia da pesquisa científica. [e-book]. Santa Maria. Ed. UAB/NTE/UFSM.
Pompêo, C. A (1999). Development of a state policy for sustainable urban drainage. Urban Water,1, 155–160.
Porto, M. F. (1995). Aspectos qualitativos do escoamento superficial em áreas urbanas. In: Drenagem Urbana. Porto Alegre: ABRH e UFRGS, 387-414.
Rossman, L. A. (2009). Storm Water Management Model User’s Manual Version 5.0. Cincinnati: U. S. Environmental Protection Agency. USA.
Rossman, L. A., & Huber, W. C. (2016). Storm Water Management Model Reference Manual Volume I – Hydrology. Cincinnati (EUA): USEPA (United States Environment Protection Agency), 2016.
Shinma, T. A. (2015). Avaliação de incertezas na calibração automática do modelo SWMM. Tese de Doutorado em Hidráulica e Saneamento, Escola de Engenharia de São Carlos, Universidade de São Paulo, São Carlos, SP, 212.
Silveira, A. L. L. (1998). Drenagem urbana: gerenciamento, simulação, controle. In: Hidrologia urbana no Brasil. Porto Alegre: Editora da UFRGS/ABRH, 8-25.
Souza, F. P. (2014). Monitoramento e Modelagem Hidrológica da Sub-bacia do Lago Paranoá – Brasília/DF – e Avaliação de Bacias de Detenção. Dissertação de Mestrado em Tecnologia Ambiental e Recursos Hídricos. Faculdade de Tecnologia. Departamento de Engenharia Civil e Ambiental. Universidade de Brasília, Brasília, DF, 139p.
Tsuji, T. M. (2018). Monitoramento e Modelagem das Águas de Drenagem Pluvial no Núcleo Urbano da Bacia do Ribeirão Riacho Fundo, Brasília – DF. Dissertação De Mestrado Em Tecnologia Ambiental E Recursos Hídricos da Universidade de Brasília.
Tsuji, T. M., Costa, M. E. L., & Koide, S. (2019). Diffuse pollution monitoring and modelling of small urban watershed in Brazil Cerrado. Water Science and Technology, 79, 1912-1921.
Walsh, T. C., & Pomeroy, C. A., &Burian, S. J. (2014). Hydrologic modeling analysis of a passive, residential rainwater harvesting program in an urbanized, semi-arid watershed. J. Hydrol., 508, 240–253
Wu, J., Thompson, J., Kolka, R., Franz, K., Stewart, T. (2013). Using the Storm Water Management Model to predict urban headwater stream hydrological response to climate and land cover change. Hydrol. Earth Syst. Sci. 2013, 17, 4743–4758.
Xu, Z., Xiong, L., & Li, H. (2019). Runoff simulation of two typical urban green land types with the Stormwater Management Model (SWMM): sensitivity analysis and calibration of runoff parameters. Environ Monit Assess 191, 343.
Yazdi, M. N., Ketabchy, M., Sample, D. J., Scott, D., & Liao, H. (2019). An evaluation of HSPF and SWMM for simulating streamflow regimes in an urban watershed. Environmental Modelling & Software, 118, 211–225.
Zhang, Y., Zhao, W. Chen, X., Jun, C., Hao, J. Tang, X., & Zhai, J. (2020). Assessment on the Effectiveness of Urban Stormwater Management. Water 2020, 13, 4.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2021 Maria Elisa Leite Costa; Thays Mitsuko Tsuji; Sérgio Koide
This work is licensed under a Creative Commons Attribution 4.0 International License.
Authors who publish with this journal agree to the following terms:
1) Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
2) Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
3) Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work.