Overview
Ancient Lake Substation is an operational electrical substation in the United States, handling voltages of 230 kV and 115 kV. It plays a key role in regional grid stability.
Ancient Lake Substation is an operational electrical substation located in the United States, with coordinates 47.159773, -119.897988. The facility operates at voltage levels of 230 kV and 115 kV, indicating its role in both transmission and sub-transmission networks. The substation's voltage specifications align with typical high-voltage infrastructure in the US, which is regulated by NERC reliability standards and FERC oversight. Such facilities are critical for maintaining grid stability and power distribution across regions. As part of the US electrical grid, Ancient Lake Substation contributes to reliable electricity supply for surrounding communities and industries. Its operational status ensures continued support for local energy needs and grid resilience.
Environmental context
The substation is situated in a rural area of Washington state, characterized by semi-arid climate and agricultural land use. Its voltage levels suggest it connects to both long-distance transmission lines and local distribution networks, influencing land use patterns and potential electromagnetic field considerations typical of such infrastructure.
Frequently asked questions
Ancient Lake Substation is located in the United States at coordinates 47.159773, -119.897988, in a rural area of Washington state.
Ancient Lake Substation operates at 230 kV and 115 kV, indicating its role in both transmission and sub-transmission networks.
Ancient Lake Substation is currently operational, actively contributing to the regional electrical grid.
Substations in the US operate under NERC reliability standards and FERC regulations, ensuring grid stability and compliance with federal guidelines.
230 kV is typically used for high-voltage transmission over long distances, while 115 kV is common for sub-transmission and distribution, making this substation a key node in the power grid.