Turning Water Abundance Into Sustainability in Brazil

Farjalla, Vinicius F.; Pires, Aliny P. F.; Agostinho, Ângelo Antônio; Amado, André Megali; Bozelli, Reinaldo Luiz; Dias, Braulio F. S.; Dib, Viviane; Faria, Bias Marçal de; Figueiredo, Andrea; Gomes, Eli Ana Traversim; Lima, Ângelo J. R.; Mormul, Roger Paulo; Ometto, Jean Pierre; Panosso, Renata; Ribeiro, Mauro César Lambert Brito; Sabino, José; Scofield, Vinicius; Scarano, Fábio Rúbio

doi:10.3389/fenvs.2021.727051

Cited by 11 publications

(4 citation statements)

References 78 publications

(99 reference statements)

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“…Numerous regions in Indonesia still face challenges in accessing electricity, particularly due to their remote locations. One potential solution to address this issue involves harnessing the available energy sources surrounding residential areas, such as water [3]. In rural areas, there is a significant abundance of low-head and lowdischarge water energy sources.…”

Section: Introductionmentioning

confidence: 99%

The model selection of propeller turbine construction using Analytical Hierarchy Process (AHP)

Wardianto,

Mafrizal,

Sufiyanto

et al. 2023

Sinergi

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This study aimed to develop an innovative propeller turbine design to facilitate easy manufacturing and maintenance processes, leading to a reduction in costs. Furthermore, the Analytical Hierarchy Process (AHP) method was employed to identify the most optimal model and design for the propeller turbine. Problem-solving within the AHP framework was guided by three fundamental principles, namely decomposition, Comparative Judgment, and Logical Consistency. The procedure included problem decomposition, assessment/ weighting to compare elements, matrix preparation and consistency testing, setting priorities for each hierarchy, priority synthesis, and decision-making. To establish a benchmark, three types of propeller turbines currently available in the market served as references. Meanwhile, the selection criteria for the model were based on several factors, including power factor, time efficiency, ease of manufacture, as well as production and maintenance costs. Considering the criteria, modifications were made to these reference models, resulting in the development of alternatives, denoted as A, B, and C. The results showed that alternative type A as the most suitable choice for further development. Therefore, this particular design was granted foremost priority to develop a low-head generator that possessed ease of manufacturing and surpassed alternative models in terms of feasibility.

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Section: Introductionmentioning

confidence: 99%

The model selection of propeller turbine construction using Analytical Hierarchy Process (AHP)

Wardianto,

Mafrizal,

Sufiyanto

et al. 2023

Sinergi

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“…Há décadas a exploração antrópica dos recursos naturais é alvo de preocupação, tornando-se tema de constantes debates envolvendo a recuperação e conservação ambiental de ecossistemas degradados (BAILLY et al, 2012), uma vez que o uso inadequado dos mesmos tem gerado impactos negativos à saúde humana e à integridade do ambiente. No Brasil, apesar do grande potencial, urge a criação de estratégias para o uso, gestão e conservação dos recursos hídricos, em uma perspectiva multissetorial que inclua energia, alimentos, saneamento e conservação ambiental a partir de soluções locais e de baixo custo, alinhadas às metas estabelecidas nos acordos internacionais, de modo a transformar a abundância de recursos hídricos em oportunidades de desenvolvimento (FARJALLA et al, 2021).…”

Section: Introductionunclassified

Aplicação De Protocolo De Avaliação Rápida Da Integridade Ambiental Na Bacia Hidrográfica Do Rio Araranguá, Sc

Santos da Silva,

Scussel,

Varela

et al. 2023

bpg

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A ocupação do ambiente e o uso humano dos recursos hídricos levam a alterações químicas, físicas e biológicas dos corpos d’água, que refletem a qualidade ambiental das bacias hidrográficas. Este estudo objetivou avaliar a integridade ambiental da Bacia Hidrográfica do Rio Araranguá (BHRA), localizada no sul de Santa Catarina, sul do Brasil. A coleta de dados se deu em escala local e em escala da paisagem, a partir da aplicação de Protocolo de Avaliação Rápida de Integridade Ambiental (PAR), para analisar as relações entre as atividades antrópicas, a estrutura física e biótica dos rios. Foram definidos seis locais de análise ao longo da BHRA, um no terço superior, dois no terço médio e três no terço inferior, os quais foram avaliados no mês de abril de 2022 por oito pesquisadores devidamente familiarizados com a aplicação do PAR. Os resultados evidenciaram que dois trechos foram classificados como impactados, três como alterados e um natural. Observou-se que os núcleos urbanos e a agricultura extensiva, representada pela cultura do arroz irrigado, são os principais detratores dos recursos hídricos principalmente por levarem a redução nas matas ciliares e a degradação na qualidade física, química e biótica da bacia. O PAR se mostrou como um instrumento de avaliação rápida eficiente, passível de ser aplicado, inclusive pelo público leigo, desde que devidamente treinado. Não obstante sugere-se a realização de estudos que envolvam maior número pontos de amostragem, para uma análise mais pormenorizada da integridade ambiental da bacia hidrográfica avaliada.

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“…Brazil's abundant water resources support biodiversity and the economy, and the country boasts the world's largest share of renewable internal freshwater resources, comprising 12% of the globe's total. Water is vital for agriculture and hydropower, but current challenges, such as uneven distribution and governance issues, must be overcome to guarantee sustainable development [24]. In 2021, the Brazilian National Water and Sanitation Agency (Agência Nacional de Águas e Saneamento Básico-ANA) published a water resources conjuncture report for the country.…”

Section: Introductionmentioning

confidence: 99%

Assessment of Time Series Models for Mean Discharge Modeling and Forecasting in a Sub-Basin of the Paranaíba River, Brazil

Costa,

Menezes Filho,

Canales

et al. 2023

Hydrology

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Stochastic modeling to forecast hydrological variables under changing climatic conditions is essential for water resource management and adaptation planning. This study explores the applicability of stochastic models, specifically SARIMA and SARIMAX, to forecast monthly average river discharge in a sub-basin of the Paranaíba River near Patos de Minas, MG, Brazil. The Paranaíba River is a vital water source for the Alto Paranaíba region, serving industrial supply, drinking water effluent dilution for urban communities, agriculture, fishing, and tourism. The study evaluates the performance of SARIMA and SARIMAX models in long-term discharge modeling and forecasting, demonstrating the SARIMAX model’s superior performance in various metrics, including the Nash–Sutcliffe coefficient (NSE), the root mean square error (RMSE), and the mean absolute percentage error (MAPE). The inclusion of precipitation as a regressor variable considerably improves the forecasting accuracy, and can be attributed to the multivariate structure of the SARIMAX model. While stochastic models like SARIMAX offer valuable decision-making tools for water resource management, the study underscores the significance of employing long-term time series encompassing flood and drought periods and including model uncertainty analysis to enhance the robustness of forecasts. In this study, the SARIMAX model provides a better fit for extreme values, overestimating peaks by around 11.6% and troughs by about 5.0%, compared with the SARIMA model, which tends to underestimate peaks by an average of 6.5% and overestimate troughs by approximately 76.0%. The findings contribute to the literature on water management strategies and mitigating risks associated with extreme hydrological events.

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Turning Water Abundance Into Sustainability in Brazil

Cited by 11 publications

References 78 publications

The model selection of propeller turbine construction using Analytical Hierarchy Process (AHP)

The model selection of propeller turbine construction using Analytical Hierarchy Process (AHP)

Aplicação De Protocolo De Avaliação Rápida Da Integridade Ambiental Na Bacia Hidrográfica Do Rio Araranguá, Sc

Assessment of Time Series Models for Mean Discharge Modeling and Forecasting in a Sub-Basin of the Paranaíba River, Brazil

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