Overview
Douala Bassa is a 14.14 MW diesel power plant in Cameroon, operating on oil fuel. It serves the Douala region, contributing to local grid stability.
Douala Bassa is a diesel power plant located near Douala, Cameroon, with a capacity of 14.14 MW. The plant operates on oil fuel and is currently in operational status, supporting the electricity needs of the region. The plant uses diesel engine technology, typical for smaller-scale power generation in areas where natural gas infrastructure is limited. Cameroon's power sector is regulated by the Ministry of Water and Energy, with environmental oversight from the Ministry of Environment. Diesel plants like Douala Bassa are subject to national emission standards for SOx, NOx, and particulates. As a medium-scale diesel facility, Douala Bassa plays a role in providing reliable power to the Douala area, which is an industrial and commercial hub. Its operation contributes to grid stability but also involves higher CO2 emissions per MWh compared to natural gas or renewables.
Environmental context
The plant's diesel fuel source results in higher CO2, SOx, and NOx emissions per unit of electricity compared to natural gas or renewable sources. Its location near Douala, a densely populated urban area, raises considerations for local air quality. The facility's age and technology (likely subcritical diesel engines) influence its environmental footprint, though specific emission controls are not detailed.
Frequently asked questions
Douala Bassa is located near Douala, Cameroon, at coordinates 4.05° N, 9.70° E.
Douala Bassa has a capacity of 14.14 megawatts (MW) and operates on diesel fuel.
The operator of Douala Bassa is not publicly listed, but it is part of Cameroon's national power generation fleet.
Diesel power plants in Cameroon are subject to national emission standards for air pollutants such as SOx, NOx, and particulates, enforced by the Ministry of Environment.
Douala Bassa provides 14.14 MW of capacity to the Douala region, supporting local industrial and residential electricity demand and grid stability.