Overview
30th Street Substation is an operational electrical substation in Tampa, Florida, owned and operated by TECO. It handles voltages of 69 kV and 13 kV, serving the local grid.
30th Street Substation is an operational electrical substation located in Tampa, Florida, United States. Owned and operated by TECO, this facility plays a key role in the region's electrical infrastructure, stepping down transmission-level voltage for distribution to residential and commercial customers. The substation operates with voltage levels of 69 kV and 13 kV, typical for a medium-voltage substation that connects the high-voltage transmission network to lower-voltage distribution systems. As part of the US power grid, it adheres to NERC reliability standards and FERC regulations, ensuring stable and secure electricity delivery. Located in an urban area of Tampa, the substation supports the city's growing energy demands. Its role in voltage transformation and grid stability is critical for local communities and businesses, contributing to the overall resilience of Florida's electrical infrastructure.
Environmental context
The substation is situated in an urban environment in Tampa, Florida, where it supports dense residential and commercial zones. Its operation involves electromagnetic fields and potential noise, but modern substations are designed to mitigate these impacts. The site's proximity to residential areas necessitates careful management of environmental and safety standards.
Frequently asked questions
30th Street Substation is located in Tampa, Florida, United States, at coordinates 28.003733, -82.426929.
The substation operates at 69 kV and 13 kV, typical for a medium-voltage substation that connects transmission and distribution networks.
The substation is owned and operated by TECO, a major utility company serving the Tampa Bay area.
US substations must comply with NERC reliability standards for grid stability and FERC regulations for transmission-level assets, ensuring safe and reliable operation.
Substations transform voltage levels, switch circuits, and protect the grid, enabling efficient transmission and distribution of electricity from power plants to consumers.