Overview
Norsa Refrigerantes - Suape is a 2.16 MW diesel power plant located in Brazil. It operates on oil and is part of the country's distributed generation landscape.
Norsa Refrigerantes - Suape is a small-scale diesel power plant located in Brazil, with a capacity of 2.16 MW. The facility is operational and serves as a distributed generation asset, likely supporting industrial or commercial operations in the Suape region. The plant uses oil as its primary fuel, a common choice for backup or peaking power in Brazil. While specific technical details are limited, diesel plants of this size typically employ reciprocating engines. Brazil's power sector is regulated by ANEEL, and such facilities must comply with environmental licensing requirements set by state agencies. As a small diesel plant, Norsa Refrigerantes - Suape contributes to local energy reliability but has a higher carbon footprint per MWh compared to natural gas or renewables. Its location near the Suape industrial port complex suggests it may support critical infrastructure or manufacturing processes.
Environmental context
The plant's use of diesel fuel results in higher CO2, SOx, and NOx emissions per unit of electricity compared to natural gas or renewable sources. Its small capacity limits overall environmental impact, but proximity to populated or industrial areas could affect local air quality. Brazil's environmental regulations, such as CONAMA resolutions, set emission limits for stationary sources.
Frequently asked questions
Norsa Refrigerantes - Suape is located in Brazil, near the Suape industrial port complex in Pernambuco state.
The plant has a capacity of 2.16 megawatts (MW), making it a small-scale power generation facility.
The plant uses oil (diesel) as its primary fuel, which is typical for peaking or backup power plants.
Diesel power plants in Brazil must comply with ANEEL regulations for electricity generation and environmental licensing from state agencies, including emission limits under CONAMA resolutions.
As a diesel plant, it emits CO2, SOx, and NOx, contributing to air pollution and greenhouse gases. However, its small size limits overall impact.