Overview
Elliott Substation is an operational electrical substation in the United States, handling voltages of 138 kV and 69 kV. It plays a key role in regional grid stability.
Elliott Substation is an operational electrical substation located in the United States, with coordinates 39.311799, -82.119099. It operates at voltage levels of 138 kV and 69 kV, indicating its role in both transmission and sub-transmission within the electrical grid. The substation operates under the regulatory framework of the United States, which includes NERC reliability standards and FERC oversight for transmission-level assets. The 138 kV voltage level classifies it as a transmission substation, while the 69 kV level suggests distribution or sub-transmission functions. Such facilities are critical for maintaining grid stability and power flow management. As part of the U.S. electrical infrastructure, Elliott Substation contributes to the reliability of electricity supply in its region. Its operational status ensures continued support for local communities and industries, highlighting the importance of substations in the broader energy network.
Environmental context
The substation's location in the United States, likely in a rural or suburban area near Athens, Ohio, influences its environmental context. Substations at this voltage level typically have a moderate footprint and are designed to minimize electromagnetic field impacts. The surrounding land use may include agricultural or forested areas, requiring careful siting to avoid sensitive habitats.
Frequently asked questions
Elliott Substation is located in the United States, near Athens, Ohio, at coordinates 39.311799, -82.119099.
Elliott Substation operates at 138 kV and 69 kV, serving both transmission and sub-transmission functions.
Elliott Substation is currently operational, actively contributing to the electrical grid.
As a U.S. substation, it must comply with NERC reliability standards and FERC regulations for grid stability and safety.
Substations step down voltage for distribution and ensure reliable power flow, making them critical for grid stability and community electricity supply.