MÉTODOS DA ELETRORESISTIVIDADE E DA POLARIZAÇÃO INDUZIDA APLICADOS NO ESTUDO DO ATERRO

Investigações geofísicas, pelos métodos geoelétricos de eletrorresistividade e polarização induzida (IP), através das técnicas de sondagem elétrica vertical e caminhamento elétrico (configurações Schlumberger e dipolo-dipolo), foram executadas na área do aterro controlado da cidade de Piracicaba (SP), com o objetivo de avaliar as potencialidades da integração dos métodos na caracterização geoelétrica da área. A área sobre a qual está assentado o aterro de Piracicaba é constituída por sedimentos da Formação Corumbataí (sedimentos argilosos e/ou silto-argilosos, com intercalações de arenitos). A interpretação conjunta da resistividade e da polarizabilidade permitiu mapear zonas de percolação de chorume e identificar os diferentes litotipos das formação, identificando materiais arenosos e siltosos. Ficou evidente que a polarizabilidade é sensível à presença de resíduos urbanos e que o efeito de IP é relacionado a materiais polarizáveis dispostos na cava, como latas, papéis, restos eletrônicos e materiais de empréstimo utilizados para a cobertura dos resíduos. Além disso, o método de IP pode ser mais indicado para o mapeamento de zonas de resíduos onde não exista contraste de resistividade entre o meio natural e os resíduos. Palavras-chave: Eletrorresisitividade, polarização induzida, aterro sanitário.

Diagnóstico geoambiental e avaliação de risco à saúde humana para uma área industrial contaminada por hidrocarbonetos localizada no município de Paulínia (SP)

This paper deals with a case study of assessing risk to human health, with the study area of an industrial site in the city of Paulinia (SP) contaminated by oil, which is disturbing situation that occurs in the state of Sao Paulo, which represents risks for human health, as toxic and carcinogenic potential of petroleum products. As an essential foundation for risk assessment, a Geo-environmental diagnosis of the region was made, posing as historical information of the area and accidents, regional geology and hydrogeology, characterization of contaminants and affected media, contaminant transport and data on potential receptors and pathways. Because of the detection of contaminants above the intervention values CETESB (2005) it was possible to proceeded to quantify risks to human health and the determination of maximum acceptable concentrations for no damage to health, using the methodology and software RBCA Tier 2 (ASTM , 1998) and Spreadsheet Risk Assessment recently published by CETESB. The results showed the risk to the health of industrial workers and regular employees of civil works (both on site) for ingestion of groundwater and inhalation of vapors indoors.

(Table 1) Geochemical and geothermometry data from fibrous calcite vein fills in the Dabashan Fold Belt, China

Fibrous calcite veins with organic inclusions have been widely considered as indicators of oil and gas generation and migration under overpressure. Abundant fibrous calcite veins containing organic-bearing inclusions occur in faulted Lower Paleozoic through Triassic hydrocarbon source rocks in the Dabashan Foreland Belt (DBF). d13CPDB and d18OPDB values of the fibrous calcite range from - 4.8 to -1.9 to per mil and - 12.8 to - 8.4 per mil respectively, which is lighter than that of associated carbonate host rocks ranging from - 1.7 to + 3.1 per mil and - 8.7 to - 4.5 per mil. A linear relationship between d13CPDB and d18OPDB indicates that the calcite veins were precipitated from a mixture of basinal and surface fluids. The fibrous calcite contains a variety of inclusions, such as solid bitumen, methane bearing all-liquid inclusions, and vapor-liquid aqueous inclusions. Homogenization temperatures of aqueous inclusions range from 140 to 196° with an average of 179°. Salinities of aqueous inclusions average 9.7 wt% NaCl. Independent temperatures from bitumen reflectance and inclusion phase relationships of aqueous and methane inclusions were used to determine fluid pressures. Results indicate high pressures, elevated above typical lithostatic confining pressure, from 150 to 200 MPa. The elevated salinity and high temperature and pressure conditions of the fibrous calcite veins argue against an origin solely from burial overpressure resulting from clay transformation and dehydration reactions. Instead fluid inclusion P-T data and geochemistry results and regional geology indicate abnormally high pressures during fluid migration. These findings indicate that tectonic stress generated fracture and fault fluid pathways and caused migration of organic bearing fluids from the DBF during the Yanshan orogeny.