Overview
Pierpont 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.
Pierpont Substation is an operational electrical substation located in the United States, with coordinates 42.264107, -89.136387. 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. Operating under the regulatory framework of the United States, Pierpont Substation adheres to NERC reliability standards and FERC regulations for transmission-level assets. The substation's voltage level indicates its importance in maintaining grid stability and supporting local industrial and residential loads. The substation's location in the Midwest contributes to its role in connecting generation sources to load centers. Its operational status ensures continued service to the surrounding area, supporting the reliability of the electrical infrastructure network.
Environmental context
The substation is situated in a region with a mix of urban and rural areas, influencing its environmental footprint. High-voltage substations like this one are typically designed with minimal direct environmental impact, focusing on electromagnetic field management and noise control. The surrounding landscape may include agricultural or residential zones, requiring careful siting to balance grid needs with community and ecological considerations.
Frequently asked questions
Pierpont Substation is located in the United States at coordinates 42.264107, -89.136387, likely in the Midwest region.
Pierpont Substation operates at 138 kV, which is a high-voltage level used for transmission and distribution in the electrical grid.
Pierpont Substation is currently operational, meaning it is actively serving the electrical grid.
As a US substation, Pierpont Substation must comply with NERC reliability standards and FERC regulations for transmission-level assets.
A 138 kV substation steps down high-voltage electricity from transmission lines to lower voltages for distribution, playing a key role in grid stability and power delivery.