Overview
Scherer Substation is an operational electrical substation in the United States, operating at 500 kV for high-voltage transmission grid stability.
Scherer Substation is a high-voltage electrical substation located in the United States, with coordinates 33.060864, -83.812698. It operates at 500 kV, placing it in the large-scale transmission category, critical for bulk 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 transmission assets. The 500 kV voltage level indicates it is a key node in the regional power grid, likely connecting generation sources to load centers. As a major transmission substation, Scherer Substation plays a vital role in maintaining grid stability and supporting electricity supply for surrounding communities. Its operational status ensures continued integration of power generation and distribution across the region.
Environmental context
The substation is located in a rural area of Georgia, near the Ocmulgee River basin. High-voltage transmission infrastructure like this can have localized environmental impacts, including electromagnetic fields and land use for rights-of-way. The surrounding ecosystem includes mixed forests and agricultural lands, which may require vegetation management to prevent outages.
Frequently asked questions
Scherer Substation is located in the United States at coordinates 33.060864, -83.812698, near the Ocmulgee River in Georgia.
Scherer Substation operates at 500 kV, which is a high-voltage transmission level used for bulk power transfer across long distances.
The substation is regulated by the North American Electric Reliability Corporation (NERC) and the Federal Energy Regulatory Commission (FERC), which set reliability standards for transmission assets in the United States.
A 500 kV substation serves as a critical node in the transmission network, stepping down voltage for distribution or interconnecting major power plants and load centers to ensure grid stability.
Environmental considerations include electromagnetic field management, land use for transmission corridors, vegetation control to prevent outages, and potential impacts on local wildlife habitats.