Overview
Westward Substation FPL is an operational substation in Florida, United States, owned by Florida Power & Light. It handles voltages of 138 kV and 13.8 kV, serving the local grid.
Westward Substation FPL is a substation located in Florida, United States, owned and operated by Florida Power & Light, a major utility in the state. The facility is operational and plays a role in the regional electrical infrastructure, stepping down transmission voltages for distribution. The substation operates at two voltage levels: 138 kV for transmission and 13.8 kV for distribution, typical of a step-down substation. As part of the Florida grid, it is subject to North American Electric Reliability Corporation (NERC) reliability standards and Federal Energy Regulatory Commission (FERC) regulations, ensuring grid stability and compliance. Located in a populated area of Florida, the substation supports local electricity distribution, contributing to the resilience of the power supply. Its role in voltage transformation is critical for delivering electricity to residential and commercial customers in the region.
Environmental context
The substation is situated in a subtropical climate zone, where high temperatures and humidity can affect equipment performance. Its urban or suburban location means it serves a dense load center, requiring robust design to withstand weather events like hurricanes. Typical substations in Florida incorporate measures for corrosion resistance and storm hardening.
Frequently asked questions
Westward Substation FPL is located in Florida, United States, at coordinates 26.708503, -80.102050.
Westward Substation FPL operates at 138 kV for transmission and 13.8 kV for distribution, typical for a step-down substation.
Westward Substation FPL is owned by Florida Power & Light, a major electric utility in Florida.
Substations in the United States must comply with NERC reliability standards and FERC regulations to ensure grid stability and safety.
Substations transform voltage levels for transmission and distribution, enabling efficient power delivery from generation to consumers.