Sistema de informações geográficas aplicado ao gerenciamento da contaminação da antiga ZUPI 131, Jurubatuba, São Paulo

Barbosa, Marcos Bolognini

doi:10.11606/d.44.2015.tde-27082015-093148

Cited by 3 publications

(4 citation statements)

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“…The Crystalline aquifer occurs in the pre-Cambrian rocks of the Basement, with secondary porosity, and is divided into two units, where the rst corresponds to the weathering mantle, and the second to the sound crystalline rocks. The Sedimentary aquifer, with primary porosity, is divided into Quaternary, São Paulo, and Resende aquifers (Hirata and Ferreira, 2001;FUSP, 2002;L'Apiccirella, 2009;Barbosa, 2015). The groundwater ow in the sedimentary aquifer in the region where the study area is located has a NE to SW direction.…”

Section: Geological Contextmentioning

confidence: 99%

“…Generally, they have a higher density than water and exhibit relative persistence in biodegradation (Pankow and Cherry, 1996). The main groups impacting the studied region are chlorinated ethenes, chlorinated ethanes, and chlorinated methanes (L'Apiccirella, 2009; Barbosa, 2015). The contamination plumes are associated with multiple sources that often overlap.…”

Section: Contamination and Remediationmentioning

confidence: 99%

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Environmental characterization of an industrially contaminated area by tetrachloroethylene using the resistive-capacitive method

Barros,

Elis,

Dantas

et al. 2024

Environ Earth Sci

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Investigation of soil and groundwater contamination is essential for assessing environmental risks and monitoring remediation processes. Geophysical methods effectively map and characterize subsurface properties without requiring direct excavations. These methods provide data on geological structure, lithological changes, groundwater level, contaminant identi cation, and remediation process monitoring.Being non-invasive, they offer an advantage over drilling operations by avoiding the need for soil excavation. This reduces the risk of contaminant migration during investigation activities. The study area in São Paulo corresponds to a former industrial galvanization site where contamination by chlorinated solvents, especially tetrachloroethylene, occurred. Remediation measures such as pumping and treatment, multiphase extraction, soil/waste removal, and chemical oxidation were implemented in the area. The contaminant and remediation processes alter the geophysical signatures of the environment, enabling the use of the electrical resistivity method. However, applying this method can be challenging in urban areas due to pavement and urban interferences. The resistive-capacitive method was employed, allowing continuous data acquisition over large areas without the need to insert electrodes into the soil.Additionally, traditional electrical pro ling and induced polarization were used to gather data at greater depths. The integration of geophysical methods with soil sample descriptions in liners provided an analysis of subsurface characteristics and affected areas. Although challenges exist in applying it to urban areas due to pavement and interferences, the electrical resistivity method can contribute to the Conceptual Site Model by lling data gaps between wells and delineating the contaminant's in uence area and the chemical oxidation remediation process.

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Section: Geological Contextmentioning

confidence: 99%

Section: Contamination and Remediationmentioning

confidence: 99%

Environmental characterization of an industrially contaminated area by tetrachloroethylene using the resistive-capacitive method

Barros,

Elis,

Dantas

et al. 2024

Environ Earth Sci

View full text Add to dashboard Cite

show abstract

“…Localmente, a partir do desenvolvimento de um sistema de informação geográfica com os dados de estudos ambientais elaborados na área do Jurubatuba, na ZUPI-131, Barbosa (2015) xistosa/gnáissica reliquiares da rocha sã (Barbosa, 2015).…”

Section: Caracterização Da áRea De Estudounclassified

“…No mesmo estudo, a compilação de dados de hidrogeologia local indicou que os aquíferos locais são de natureza livre e, de forma geral, com o predomínio de fluxo descendente (Barbosa, 2015).…”

Section: Caracterização Da áRea De Estudounclassified

Processos microbiológicos associados à degradação de solventes organoclorados na água subterrânea - Jurubatuba - São Paulo - SP

Ferreira¹

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Environmental Characterization of an Industrially Contaminated Area by Tetrachloroethylene Using the Resistive-Capacitive Method.

Barros,

Elis,

Dantas

et al. 2023

Preprint

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Investigation of soil and groundwater contamination is essential for assessing environmental risks and monitoring remediation processes. Geophysical methods effectively map and characterize subsurface properties without requiring direct excavations. These methods provide data on geological structure, lithological changes, groundwater level, contaminant identification, and remediation process monitoring. Being non-invasive, they offer an advantage over drilling operations by avoiding the need for soil excavation. This reduces the risk of contaminant migration during investigation activities. The study area in São Paulo corresponds to a former industrial galvanization site where contamination by chlorinated solvents, especially tetrachloroethylene, occurred. Remediation measures such as pumping and treatment, multiphase extraction, soil/waste removal, and chemical oxidation were implemented in the area. The contaminant and remediation processes alter the geophysical signatures of the environment, enabling the use of the electrical resistivity method. However, applying this method can be challenging in urban areas due to pavement and urban interferences. The resistive-capacitive method was employed, allowing continuous data acquisition over large areas without the need to insert electrodes into the soil. Additionally, traditional electrical profiling and induced polarization were used to gather data at greater depths. The integration of geophysical methods with soil sample descriptions in liners provided an analysis of subsurface characteristics and affected areas. Although challenges exist in applying it to urban areas due to pavement and interferences, the electrical resistivity method can contribute to the Conceptual Site Model by filling data gaps between wells and delineating the contaminant's influence area and the chemical oxidation remediation process.

show abstract

Sistema de informações geográficas aplicado ao gerenciamento da contaminação da antiga ZUPI 131, Jurubatuba, São Paulo

Cited by 3 publications

References 0 publications

Environmental characterization of an industrially contaminated area by tetrachloroethylene using the resistive-capacitive method

Environmental characterization of an industrially contaminated area by tetrachloroethylene using the resistive-capacitive method

Processos microbiológicos associados à degradação de solventes organoclorados na água subterrânea - Jurubatuba - São Paulo - SP

Environmental Characterization of an Industrially Contaminated Area by Tetrachloroethylene Using the Resistive-Capacitive Method.

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