Overview
Duke Energy operates a substation in Florida, United States, serving as a key node in the regional electrical grid. The facility is operational and supports power distribution for the surrounding area.
Duke Energy operates a substation located in Florida, United States, as part of its extensive electrical infrastructure network. The facility is operational and plays a role in stepping down transmission voltages for local distribution, serving residential and commercial customers in the region. As a substation within the Duke Energy system, this facility likely operates at transmission-level voltages (typically 69 kV to 500 kV) and is equipped with switchgear, transformers, and protection systems compliant with NERC reliability standards and FERC regulations. The substation may utilize IEC 61850 for automation and communication, ensuring grid stability and efficient power flow. The substation's location in Florida places it within a region prone to hurricanes and tropical storms, necessitating robust design and emergency response protocols. Its role in the grid supports community resilience by maintaining power supply during peak demand and adverse weather events.
Environmental context
The substation is situated in a subtropical climate zone in Florida, where high humidity and frequent lightning strikes influence equipment design and maintenance. The facility's location near the Gulf Coast may require flood mitigation measures. Its operation supports the integration of renewable energy sources, such as solar, which are expanding in the state.
Frequently asked questions
The Duke Energy substation is located in Florida, United States, at coordinates 28.141124, -82.743965.
The substation is currently operational, actively serving the electrical grid in Florida.
The substation is operated by Duke Energy, a major utility company in the United States.
As part of the US electrical grid, the substation must comply with NERC reliability standards and FERC regulations for transmission-level assets.
Substations transform voltage levels for transmission and distribution, isolate faults, and enable grid monitoring and control, ensuring reliable power delivery.