Overview
Fortson Substation is an operational electrical substation in the United States, operating at 500 kV. It plays a key role in high-voltage transmission grid stability.
Fortson Substation is an operational electrical substation located in the United States, with coordinates 32.610165, -84.915634. Operating at a voltage of 500 kV, it is classified as a high-voltage transmission substation, critical for long-distance power transfer and grid reliability. The substation operates under the regulatory framework of the North American Electric Reliability Corporation (NERC) and the Federal Energy Regulatory Commission (FERC), which enforce reliability standards for bulk power systems. As a 500 kV facility, it is part of the extra-high-voltage (EHV) network, typically used for interconnecting major generation sources with load centers. Fortson Substation contributes to the stability of the regional power grid by facilitating voltage regulation and power flow control. Its location in the southeastern United States supports the integration of diverse energy resources and ensures reliable electricity supply to surrounding communities and industries.
Environmental context
The substation is situated in a region with a mix of urban and rural areas, where high-voltage infrastructure is essential for meeting growing electricity demand. The 500 kV voltage level indicates significant power transfer capacity, which can influence land use and ecological corridors. Proper maintenance and modern switchgear help mitigate risks of outages and environmental impacts.
Frequently asked questions
Fortson Substation is located in the United States at coordinates 32.610165, -84.915634.
Fortson Substation operates at 500 kV, which is classified as extra-high voltage (EHV) for long-distance power transmission.
Fortson Substation is currently operational.
As a US substation, Fortson Substation must comply with NERC reliability standards and FERC regulations for transmission-level assets.
500 kV is a common extra-high voltage level used for bulk power transmission over long distances, reducing losses and improving grid efficiency.