Overview
Baxter Substation is an operational electrical substation located in the United States. It plays a key role in regional grid stability and power distribution.
Baxter Substation is an operational electrical substation located in the United States, with coordinates 46.412859, -119.196420. As a substation, it is a critical node in the electrical infrastructure, facilitating voltage transformation and power distribution to surrounding areas. The facility operates under the regulatory framework of the United States, which includes NERC reliability standards and FERC oversight for transmission-level assets. Substations like Baxter are essential for maintaining grid stability and ensuring reliable electricity supply to residential, commercial, and industrial customers. The environmental context of Baxter Substation involves its role in the local power grid, supporting energy distribution in a region that may experience varying climatic conditions. Its operational status ensures continued service to the community, contributing to the overall resilience of the electrical infrastructure.
Environmental context
Baxter Substation is situated in a region with a semi-arid climate, where electrical infrastructure must withstand temperature extremes and occasional weather events. The substation's role in voltage regulation and power distribution is vital for local energy reliability, supporting both urban and agricultural loads.
Frequently asked questions
Baxter Substation is located in the United States at coordinates 46.412859, -119.196420.
Baxter Substation is currently operational, meaning it is actively involved in the electrical grid.
Substations in the United States operate under NERC reliability standards and FERC regulations, ensuring grid stability and compliance with federal guidelines.
Substations transform voltage levels and route electricity, playing a critical role in distributing power from generation sources to end users.
As an operational substation, Baxter helps maintain voltage stability and supports the distribution of electricity to surrounding areas, enhancing grid resilience.