ABSTRACT
RESUMO Com o crescimento da população urbana e consequente alteração do uso e da ocupação do solo nas bacias hidrográficas, as inundações têm ficado cada vez mais frequentes. O presente trabalho teve como objetivo verificar os efeitos do emprego de técnicas compensatórias na sub-bacia hidrográfica Ribeirão do Santa Rita, localizada no município de Fernandópolis, São Paulo, Brasil. Foram analisados a vazão de pico e o tempo de resposta de diversos cenários, com o intuito de verificar o potencial de atenuação das inundações. A metodologia utilizada empregou o Storm Water Management Model (SWMM) para propagar o escoamento, e o software de Sistema de Informação Geográfica (SIG) para obter as características da bacia em estudo e os locais de potencial emprego das técnicas. Foi simulada a instalação de diversas técnicas compensatórias, isoladamente e em conjunto, para a configuração urbana de 2017. Mediante os hidrogramas gerados por cada cenário, constatou-se que os melhores resultados ocorreram em eventos com tempo de retorno menor. A atenuação da vazão de pico chegou a 33,72% utilizando-se trincheiras de infiltração, 31,38% para pavimentos permeáveis, 31,08% empregando jardins de chuva e 12,20% com telhados verdes. O aumento no tempo de resposta foi de até 16 minutos. No cenário com todas as técnicas compensatórias, a redução foi de até 37,29% da vazão de pico e o aumento do tempo de resposta foi de 18 minutos. Portanto, as técnicas compensatórias podem reduzir a vazão de pico e aumentar o tempo de resposta da sub-bacia, mitigando as ocorrências de inundações.
ABSTRACT With the growth of the urban population and the consequent alteration of land use and occupation in the watersheds, floods have become more frequent. This paper aimed to verify the effects of the use of compensatory techniques in the watershed Ribeirão do Santa Rita, located in the city of Fernandópolis, São Paulo, Brazil. Peak flow and response time of various scenarios were analyzed in order to verify the potential for flood mitigation. The methodology used Storm Water Management Model (SWMM) to propagate the flow, with the support of the Geographic Information Systems (GIS) to obtain the characteristics of the studied watersheed and the places of potential use of the techniques. The installation of several compensatory techniques was simulated, separately and together, for the 2017 urban configuration. Upon the hydrographs generated by each scenario, it was found that the best results occurred in events with shorter return time. Peak flow attenuation reached 33.72% using infiltration trenches, 31.38% for pours pavements, 31.08% using rain gardens, and 12.20% with green roofs. The increase in lag time was up to 16 minutes. In the scenario with all compensatory techniques, the reduction in peak flow was up to 37.29% and the response time increased by 18 minutes. Therefore, compensatory techniques can reduce peak flow and increase the response time of the sub-basin, consequently mitigating the occurrences of floods.
ABSTRACT
RESUMO A remoção da cobertura vegetal e a impermeabilização de grandes áreas somadas à ineficiência dos serviços básicos de saneamento, contribuem para o aumento das cargas poluidoras pontuais e difusas que são transportadas superficialmente pelas águas pluviais, causando impactos negativos ao sistema de drenagem. Como o despejo ilegal de efluentes domésticos em redes de drenagem é uma realidade observada em todo o país, principalmente no meio urbano, hoje, a maior preocupação dos gestores e estudiosos é voltada às fontes pontuais de poluição e, apesar da importância, as fontes difusas têm recebido pouca atenção. Este trabalho objetivou modelar, utilizando o programa Storm Water Management Model (SWMM), a qualidade das águas pluviais a partir da avaliação do acúmulo de poluentes na superfície do solo em períodos secos e da lavagem durante eventos de precipitação na Bacia Hidrográfica Riacho do Prado, inserida no perímetro urbano da cidade de Campina Grande, Paraíba. Oito pontos no canal de drenagem foram monitorados, analisando-se as variáveis demanda bioquímica de oxigênio (DBO), demanda química de oxigênio (DQO) e fósforo total (FT), além da determinação da vazão. Os resultados obtidos nas simulações do comportamento dos poluentes em escala temporal para o evento medido do dia 08 de junho de 2018 foram condizentes com os valores observados nas análises laboratoriais, confirmando a eficiência dos resultados para as outras simulações realizadas. Os dias antecedentes sem chuva e a intensidade da precipitação se mostraram importantes na análise da carga poluente.
ABSTRACT Removal of vegetation cover and the expansion of impermeable land, together with the inefficiency of basic sanitation services, contribute to the increase of point and diffuse pollutant loads drained by rainwater, causing negative impacts at drainage system. As the illegal discharging of domestic sewage in drainage canals is a reality observed throughout the country, especially in urban areas, today the main concern of managers and researchers is directed to the point sources of pollution and, despite the importance, diffuse sources have received little attention. This work aims to model the rainwater quality using the Storm Water Management Model (SWMM) from the evaluation of buildup pollutants on the soil surface in dry periods and the washoff during precipitation events in the Riacho do Prado watershed located in the urban area of Campina Grande, Paraíba. Eight points were monitored at the drainage canal, in which the variables BOD5, COD, and total phosphorus were analyzed, in addition to flow determination. The results obtained on the simulations of behavior of pollutants in time scale for the actual event of 06/08/2018 were in agreement with the values observed at laboratory analyses, confirming the efficiency of results for the other simulations. The previous days without rain and the intensity of precipitation were important in the analysis of the pollutant load.
ABSTRACT
Aims: In recent decades, Ho Chi Minh City, Vietnam, frequently has been affected by local floods and inundation from heavy rainfall. Conventional flood mitigation measures such as building flood gates and upgrading sewerage systems have been implemented but problems persist. The objective of this research is to assess another approach for flood control measures, namely Sustainable Urban Drainage Systems (SUDS), with application to the Nhieu Loc - Thi Nghe Basin, located in the central part of Ho Chi Minh City. Methodology: A combination of the Stormwater Management Model (PCSWMM) and interviews with 140 households was used to assess the efficacy and acceptability of four of the most popular SUDS: Rainwater harvesting, green roofs, urban green space and pervious pavement. Thirteen SUDS and urban build-out scenarios were simulated under 6 design storm conditions. Results: PCSWMM results showed that inundation from intense rainfall could be reduced with proper land-use control, specifically by maintaining imperviousness at 65% or less of the surface area. With respect to SUDS performance, green roofs were best at reducing peak runoff (22% reduction), followed by pervious pavement, urban green space, and rainwater harvesting systems. Regarding environmental improvements, as represented by reduction in total suspended solids load, urban green space was best with 20% of the solids load removed compared to the base case scenario, followed by green roofs, pervious pavement, and rainwater harvesting. The household interviews revealed the majority of people preferred pervious pavement to the other SUDS options and the least preferred option was green roof technology. Conclusion: Considering the combination of water quantity and water quality controls, it seems that green roof technology was the best performer for this area of Ho Chi Minh City, followed by urban green space, pervious pavement and rainwater harvesting. However, green roof technology also was the least favored option for the public and stakeholder acceptance will impact SUDS implementation.