Overview
Barnes Substation is an operational electrical substation in the United States, operating at 138 kV. It plays a role in regional grid stability and power distribution.
Barnes Substation is an operational electrical substation located in the United States, with coordinates 35.420055, -97.352486. The facility operates at a voltage of 138 kV, classifying it as a high-voltage substation critical for transmission and distribution within the regional grid. As a substation operating under the jurisdiction of the United States, it adheres to NERC reliability standards and FERC regulations for transmission-level assets. The 138 kV voltage level is typical for sub-transmission or distribution substations, serving to step down power from higher voltage transmission lines for local distribution. The substation's operational status ensures continued support for grid stability and electricity supply to the surrounding area. Its location in the central United States places it within a region that experiences diverse weather patterns, requiring robust infrastructure to maintain reliability.
Environmental context
The substation is located in an area with a mix of urban and rural land use, typical for central Oklahoma. The 138 kV voltage level indicates it serves as a key node in the regional power grid, potentially impacting local wildlife corridors and land use. Substations of this scale are generally designed with environmental considerations such as oil containment and noise mitigation.
Frequently asked questions
Barnes Substation is located in the United States at coordinates 35.420055, -97.352486, near Oklahoma City, Oklahoma.
Barnes Substation operates at a voltage of 138 kV, which is typical for sub-transmission or distribution substations.
Barnes Substation is currently operational, indicating it is active and contributing to the regional power grid.
As a substation in the United States, Barnes Substation must comply with NERC reliability standards and FERC regulations for transmission-level assets.
A 138 kV substation typically steps down power from higher voltage transmission lines (e.g., 230 kV or 345 kV) for distribution to local networks, playing a critical role in grid stability.