Overview
Manatee Substation is an operational electrical substation in Florida, United States, owned and operated by Florida Power & Light. It operates at 230 kV, serving the regional grid.
Manatee Substation is an operational electrical substation located in Florida, United States. Owned and operated by Florida Power & Light, it is a key component of the state's electrical infrastructure, handling high-voltage transmission at 230 kV. The substation operates under the regulatory framework of the North American Electric Reliability Corporation (NERC) and the Federal Energy Regulatory Commission (FERC), ensuring grid reliability and compliance with mandatory standards. As a 230 kV facility, it falls within the high-voltage transmission category, typical for interconnecting major power plants and load centers. This substation plays a critical role in maintaining grid stability and power distribution in the region. Its location in Florida, a state with growing energy demand and vulnerability to extreme weather, underscores the importance of robust electrical infrastructure for community resilience and economic activity.
Environmental context
The substation is situated in a region with a subtropical climate, where electrical infrastructure must withstand high humidity, heat, and hurricane risks. The 230 kV voltage level indicates its role in bulk power transmission, which can have localized environmental impacts through electromagnetic fields and land use.
Frequently asked questions
Manatee Substation is located in Florida, United States, at coordinates 27.603957, -82.345443.
Manatee Substation operates at 230 kV, which is a high-voltage transmission level used for long-distance power transfer.
Manatee Substation is owned and operated by Florida Power & Light, a major electric utility in Florida.
As part of the US electrical grid, Manatee Substation must comply with NERC reliability standards and FERC regulations for transmission assets.
A 230 kV substation serves as a node in the high-voltage transmission network, stepping voltage up or down for efficient power distribution and interconnecting generation sources with load centers.