Overview
ETE III 2 SANTO CAMPAGNOLO is a wastewater treatment plant serving Toledo, Paraná, Brazil. It serves a population of approximately 15,887 and has a designed capacity of 1.00 (units unspecified).
ETE III 2 SANTO CAMPAGNOLO is a wastewater treatment plant located in Toledo, Paraná, Brazil. It serves the local community of Jardim Pasquali and Jardim Gisela, with a population of about 15,887. The plant is part of the municipal wastewater infrastructure for Toledo, a city in the southern region of Brazil. As a plant serving a medium-sized agglomeration, it operates under Brazil's national environmental regulations, which are enforced by state environmental agencies. Typical plants of this scale in Brazil employ secondary treatment to meet discharge standards. The plant's treated effluent is likely discharged into a local watercourse that drains into the Paraná River basin, eventually reaching the Río de la Plata estuary. This region supports diverse aquatic life and is important for water supply and agriculture. Proper treatment is essential to protect downstream water quality and ecosystems.
Environmental context
The plant is located inland in Paraná state, within the Paraná River basin. Its treated effluent likely flows into a tributary of the Paraná River, which ultimately drains into the Río de la Plata estuary. This watershed supports diverse aquatic ecosystems and is critical for regional water supply and agriculture. Protecting water quality is vital for maintaining ecological balance and human uses downstream.
Frequently asked questions
The plant is located in Toledo, Paraná, Brazil, at Rua Barão do Rio Branco in the Jardim Pasquali and Jardim Gisela neighborhoods.
The plant serves approximately 15,887 people in the Toledo area.
The treated effluent is likely discharged into a local watercourse that is part of the Paraná River basin, eventually reaching the Río de la Plata estuary.
The plant operates under Brazil's national environmental regulations, enforced by the state environmental agency of Paraná. These regulations set discharge standards to protect water quality.
Plants of this scale in Brazil typically employ secondary treatment processes, such as activated sludge or stabilization ponds, to meet regulatory standards for organic matter and nutrient removal.
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