Overview
Bay City Substation is an operational electrical substation in Texas, United States, owned and operated by American Electric Power. It operates at 138 kV, serving the regional grid.
Bay City Substation is an operational electrical substation located in Texas, United States. Owned and operated by American Electric Power, it is a key node in the regional transmission network, stepping down high-voltage electricity for distribution. The substation operates at 138 kV, a common voltage level for subtransmission systems in the United States. As part of the American Electric Power system, it adheres to NERC reliability standards and FERC regulations, ensuring grid stability and compliance with mandatory reliability requirements. Located in a rural area near Bay City, Texas, the substation supports local industrial and residential electricity needs. Its role in the grid is critical for maintaining voltage stability and power flow in the region, contributing to the overall resilience of the Texas electrical infrastructure.
Environmental context
The substation is situated in a rural area of Texas, where the local environment includes agricultural land and proximity to the Gulf Coast. Electrical infrastructure in such regions must consider storm resilience, particularly for hurricane-prone areas. The 138 kV voltage level indicates a subtransmission role, balancing local distribution with regional grid connectivity.
Frequently asked questions
Bay City Substation is located in Texas, United States, near the city of Bay City. Its coordinates are approximately 28.9877° N, -95.9693° W.
Bay City Substation operates at 138 kV (138,000 volts), which is a common subtransmission voltage level in the United States.
Bay City Substation is owned and operated by American Electric Power (AEP), a major investor-owned utility in the United States.
As part of the U.S. electrical grid, Bay City Substation must comply with NERC reliability standards and FERC regulations, ensuring grid stability and operational safety.
A 138 kV substation typically serves as a subtransmission node, stepping down higher transmission voltages for local distribution, or interconnecting generation sources to the grid.