Overview
Ogallalla Switching Station is a 115 kV substation in Nebraska, United States, operated by Tri-State Generation & Transmission Association. It plays a key role in regional grid stability.
Ogallalla Switching Station is a substation located in Nebraska, United States, operated by Tri-State Generation & Transmission Association. The facility operates at 115 kV, a standard voltage level for sub-transmission and distribution, serving as a critical node in the local electrical grid. The substation operates under the regulatory framework of the North American Electric Reliability Corporation (NERC) and the Federal Energy Regulatory Commission (FERC), ensuring compliance with reliability standards. As a switching station, it facilitates the routing of power between transmission lines, enhancing grid flexibility and resilience. This facility supports the electrical infrastructure of the surrounding region, contributing to reliable power delivery for residential, commercial, and industrial consumers. Its operational status ensures continued grid stability and energy distribution in Nebraska.
Environmental context
The substation is located in a rural area of Nebraska, characterized by agricultural land and open plains. The 115 kV voltage level indicates a medium-scale facility that connects local distribution networks to higher-voltage transmission lines. Its operation involves minimal direct environmental impact, but it supports the integration of renewable energy sources like wind power, which is prevalent in the region.
Frequently asked questions
Ogallalla Switching Station is located in Nebraska, United States, near coordinates 41.103133, -101.709893.
Ogallalla Switching Station operates at 115 kV, a common voltage for sub-transmission and distribution substations.
The substation is operated by Tri-State Generation & Transmission Association, a wholesale power supplier.
As part of the US electrical grid, Ogallalla Switching Station must comply with NERC reliability standards and FERC regulations.
Switching stations route power between transmission lines, allowing for grid flexibility and maintenance without interrupting service.