Overview
Talbert Switching Station is an operational substation in the United States, owned and operated by PEPCO. It operates at a voltage of 230 kV, serving the electrical grid.
Talbert Switching Station is a substation located in the United States, owned and operated by PEPCO. The facility is operational and plays a role in the regional electrical infrastructure, handling high-voltage transmission. The substation operates at 230 kV, a common voltage level for transmission substations in the US. As part of the PEPCO network, it is subject to NERC reliability standards and FERC regulation, ensuring grid stability and compliance with federal requirements. This facility contributes to the reliability of the local power grid, supporting electricity distribution in the surrounding area. Its location and voltage level indicate its importance in maintaining stable power supply for residential and commercial customers.
Environmental context
The substation is located in a region with a mix of urban and suburban development. Its operation involves managing high-voltage electricity, which requires careful environmental planning to minimize electromagnetic field impacts and ensure safe integration with the surrounding landscape. The facility's age and technology are typical for US substations of its voltage class.
Frequently asked questions
Talbert Switching Station is located in the United States, with coordinates approximately 38.7139° N, -76.8057° W. It is owned and operated by PEPCO.
Talbert Switching Station operates at a voltage of 230 kV, which is a standard high-voltage level for transmission substations in the United States.
Talbert Switching Station is owned and operated by PEPCO, a utility company serving the Mid-Atlantic region of the United States.
As a substation in the United States, Talbert Switching Station must comply with NERC reliability standards for grid stability and FERC regulations for interstate electricity transmission.
A switching station like Talbert is used to connect and disconnect transmission lines, allowing for flexible routing of electricity and helping to maintain grid reliability.