Análise experimental e numérica de trincheiras de infiltração em meio não saturado
Data
2017-11-15
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Editor
Biblioteca Digital de Teses e Dissertações da USP
Universidade de São Paulo
Escola de Engenharia de São Carlos
Universidade de São Paulo
Escola de Engenharia de São Carlos
Resumo
Descrição
Este trabalho tem como objetivos avaliar, para eventos de chuvas simuladas, o comportamento hidráulico de uma trincheira de infiltração experimental instalada na EESC/USP e propor uma nova metodologia de dimensionamento para trincheiras de infiltração. Para realizar a avaliação, foram conduzidos ensaios experimentais para determinar o volume infiltrado, sendo este calculado pela diferença entre o volume de entrada, medido através de vertedor triangular, e o volume armazenado na trincheira, medido a partir de medidor de nível. Em relação à nova metodologia de dimensionamento, esta foi proposta com base no modelo de Green-Ampt adaptado ao processo de infiltração horizontal. Os parâmetros de entrada do modelo: umidade, potencial matricial e condutividade hidráulica saturada, foram determinados, respectivamente, através de sondas que utilizam a Reflectometria no Domínio do Tempo (TDR), por curvas de retenção determinadas em laboratório pela técnica do papel filtro e câmara de Richards e por ensaio laboratorial com permeâmetro de carga constante. As curvas de retenção além de serem determinadas por dois métodos laboratoriais também foram avaliadas em função da distribuição uni e bimodal do tamanho médio dos poros. Para isto, utilizou-se a tomografia computadorizada para analisar o comportamento dos poros no solo estudado. O solo onde foi instalada a trincheira constitui-se de areia média a fina argilosa e apresenta a condutividade hidráulica saturada em torno de 9,06.\'10 POT.-6\' m/s. A câmara de Richards foi o método de determinação da curva de retenção que melhor caracterizou o solo quanto à sua porosidade. Os resultados demonstraram que a trincheira de infiltração é eficiente, controlando 100% do volume escoado, mesmo para chuvas com intensidades superiores aos projetos de microdrenagem. Verificou-se também que o modelo de Green-Ampt se ajusta bem ao processo de infiltração horizontal e que a metodologia de dimensionamento proposta contribui de forma eficiente e economicamente eficaz para o dimensionamento de dispositivos de infiltração.
This work assessed the hydraulic behavior of a experimental infiltration trench built at the EESC/USP and proposed a new sizing methodology for infiltration trench, for simulated events. In order to evaluate the hydraulic behavior experimental tests were taken to determine the infiltrated volume. The infiltrated volume was calculated through the difference between the entry volume, obtained by triangular weir, and the volume stored in the trench, determined by level meter. The sizing methodology proposed was based on Green-Ampt model adapted to horizontal infiltration process. The model parameters: water content, pressure head and saturated hydraulic conductivity were determined by Time Domain Reflectometer, retention curve and constant head permeameter, respectively. Retention curves were determined applying two laboratorial methods: Richards camara and filter-paper method, and were evaluate by the unimodal and bimodal distributions of the medium size of the pores. Tomography computerized was used to analyze the behavior of the soil pores. Infiltration trench was installed in a sand soil which presents the saturated hydraulic conductivity around 9,06.\'10 POT.-6\' m/s. The Richards\'s camera was the method that better represented the soil porosity. The results proved the efficiency of the infiltration trench, which controlled 100% of the runoff, even for events with intensities greater than drainage systems design storms. It was also verified that Green-Ampt model has good adjustments to horizontal infiltration process and the sizing methodology proposed is efficient for sizing of infiltration dispositive.
This work assessed the hydraulic behavior of a experimental infiltration trench built at the EESC/USP and proposed a new sizing methodology for infiltration trench, for simulated events. In order to evaluate the hydraulic behavior experimental tests were taken to determine the infiltrated volume. The infiltrated volume was calculated through the difference between the entry volume, obtained by triangular weir, and the volume stored in the trench, determined by level meter. The sizing methodology proposed was based on Green-Ampt model adapted to horizontal infiltration process. The model parameters: water content, pressure head and saturated hydraulic conductivity were determined by Time Domain Reflectometer, retention curve and constant head permeameter, respectively. Retention curves were determined applying two laboratorial methods: Richards camara and filter-paper method, and were evaluate by the unimodal and bimodal distributions of the medium size of the pores. Tomography computerized was used to analyze the behavior of the soil pores. Infiltration trench was installed in a sand soil which presents the saturated hydraulic conductivity around 9,06.\'10 POT.-6\' m/s. The Richards\'s camera was the method that better represented the soil porosity. The results proved the efficiency of the infiltration trench, which controlled 100% of the runoff, even for events with intensities greater than drainage systems design storms. It was also verified that Green-Ampt model has good adjustments to horizontal infiltration process and the sizing methodology proposed is efficient for sizing of infiltration dispositive.
Palavras-chave
Drenagem urbana, Meio não saturado, Trincheira de infiltração, Infiltration trench, Unsaturated zone, Urban drainage