Overview
Church Substation is an operational electrical substation in the United States, owned and operated by Delmarva Power. It operates at voltage levels of 138 kV and 69 kV, serving the regional grid.
Church Substation is an operational electrical substation located in the United States, owned and operated by Delmarva Power. The facility plays a key role in the regional electrical infrastructure, stepping down transmission voltages for local distribution. The substation operates at voltage levels of 138 kV and 69 kV, typical for sub-transmission and distribution applications. As part of the Delmarva Power network, it is subject to NERC reliability standards and FERC regulation, ensuring grid stability and compliance with mandatory reliability requirements. This facility supports the electrical grid in the Mid-Atlantic region, contributing to reliable power delivery for residential, commercial, and industrial customers. Its operational status and voltage class indicate its importance in maintaining local grid resilience and meeting demand.
Environmental context
The substation is located in a rural area of the Mid-Atlantic United States, where electrical infrastructure supports a mix of agricultural and residential loads. The voltage levels and operational status suggest it is a key node for local grid stability, with potential environmental considerations related to electromagnetic fields and land use.
Frequently asked questions
Church Substation is located in the United States, with coordinates approximately 39.242698, -75.848595, in the Mid-Atlantic region.
Church Substation operates at voltage levels of 138 kV and 69 kV, which are common for sub-transmission and distribution in the US electrical grid.
Church Substation is owned and operated by Delmarva Power, a utility serving the Delmarva Peninsula.
As part of the US electrical grid, Church Substation must comply with NERC reliability standards and FERC regulations for transmission-level assets.
Substations like Church Substation step down high transmission voltages to lower distribution voltages, ensuring safe and reliable electricity delivery to end users.