Brenda Lara Duarte Souza Carneiro scite author profile

Entender as características hidrológicas de uma região é essencial para compreender seus problemas e, assim, propor soluções quanto à gestão dos recursos hídricos. Por isso, o presente trabalho elaborou um modelo de regionalização para a obtenção de hidrogramas unitários triangulares de bacias hidrográficas localizadas em barragens do semiárido cearense. As variáveis empregadas nas equações de regressão não linear foram: área de drenagem da bacia hidrográfica, comprimento do rio principal e tempo de concentração. Foram utilizados dados de projeto das barragens e pesquisas de caráter bibliográfico com significativas contribuições para os estudos hidrológicos. Nos resultados obtidos verificou-se boa aproximação entre as equações de regressão não linear e o método do hidrograma unitário sintético triangular, fato comprovado pelos testes estatísticos para cada caso. Concluiu-se que a regionalização definida para essas bacias pode ser considerada consistente e de fácil aplicação para análises preliminares em projetos hidráulicos similares. Palavras-chave: Regionalização. Regressão. Hidrograma. Semiárido.

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Hydrological risk of dam failure under climate change

Carneiro

Filho

Carvalho

et al. 2022

RBRH

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Most water infrastructure was designed for climate conditions and demands that have been rapidly changing. In this study, we investigate flood magnitude and dam safety under climate change, using an ensemble of CMIP6 climate models, coupled to a hydrological model. We compare historical and future climate conditions of a watershed in Ceará, Northeast Brazil. Climate models revealed a wide range of risk levels of flood and hydrological failure. Half of the climate scenarios indicated a reduction in the flood return period. A flood associated with a 1000-year storm had an occurrence probability about 12 times higher when comparing the SSP5 8.5 scenario with historical conditions. In one more critical scenario, the water depth exceeded the height of the dam's crest. When considering a flood associated with a decamillennial storm, dam collapse risk was increased. Climate change might increase the risk of water infrastructure failure, which needs to be adapted to ensure the safety of the water system stakeholders.

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Predicting Anoxia in the Wet and Dry Periods of Tropical Semiarid Reservoirs

Carneiro

Rocha

Barros³

et al. 2022

SSRN Journal

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