Overview
NUEVA ALDEA II is a 10 MW diesel power plant in Chile, operated by ARAUCO BIOENERGIAS. It provides operational power generation capacity in the Bio-Bio region.
NUEVA ALDEA II is a diesel power plant located in the Bio-Bio region of Chile, with a capacity of 10 MW. The facility is owned and operated by ARAUCO BIOENERGIAS and is currently operational. It contributes to the local power grid, supporting industrial and residential energy needs in the area. The plant uses oil as its primary fuel, typical for diesel power plants in Chile. Diesel plants of this scale often serve as peaking or backup power sources. Chile's power sector is regulated by the Comisión Nacional de Energía (CNE) and operates under environmental standards set by the Ministerio del Medio Ambiente. As a 10 MW facility, NUEVA ALDEA II is considered a small-scale power plant. It plays a role in diversifying the energy mix in the region, which includes hydroelectric, solar, and thermal sources. The plant's operation supports grid stability and provides dispatchable power when renewable sources are intermittent.
Environmental context
The plant's use of oil as fuel results in CO2, SOx, and NOx emissions typical of diesel power generation. Located in the Bio-Bio region, the facility operates in an area with agricultural and industrial activity. Proximity to populated areas may influence local air quality considerations. Modern emission controls can mitigate environmental impact.
Frequently asked questions
NUEVA ALDEA II is located in the Bio-Bio region of Chile, near the city of Chillán.
NUEVA ALDEA II has a capacity of 10 megawatts (MW), making it a small-scale diesel power plant.
NUEVA ALDEA II is owned and operated by ARAUCO BIOENERGIAS.
Diesel power plants in Chile must comply with emission standards set by the Ministerio del Medio Ambiente, including limits on SOx, NOx, and particulate matter. The Comisión Nacional de Energía oversees the sector.
As a diesel plant, NUEVA ALDEA II provides dispatchable power that can be ramped up quickly to meet peak demand or compensate for intermittent renewable sources like solar and wind.