@misc{a7ef58bd728b4f4a99e8afbcf6bcbd3d,
title = "Impact of Glen Canyon Generation Loss",
abstract = "Colorado River Basin hydropower generation has faced challenges due to droughts and ecological and social water requirements. Specifically, Glen Canyon hydropower generation fluctuates substantially with recent extreme weather trends. Further, the western grid evolves with higher wind and solar share, and Glen Canyon hydropower's contribution to grid flexibility services is essential. The Western Area Power Administration (WAPA) markets and schedules electricity production at GCD, and the loss of this power could have significant financial consequences for the WAPA Colorado River Storage Project's (CRSP) Office because it may need to purchase relatively large amounts of energy to serve its firm electrical obligations. In addition, GCD provides grid reliability services for the WAPA Colorado-Missouri (WACM) balancing authority (BA). Both WAPA and DOE's Water & Power Technology Office (WPTO) are interested in researching how these drier hydrological conditions will impact federal electrical energy production, the Western Electricity Coordinating Council (WECC) power grid, and the value of hydropower in the face of lower production. We study multiple hydrologic and power grid scenarios to understand the grid impacts of the loss of Glen Canyon generation. The study uses a production cost model, water resources planning models, water-centric grid models, and various data analytic techniques. The study progress presentation discusses the selection of probable CRSP' hydropower scenarios and power grid scenarios to understand the impacts of Glen Canyon generation, which includes technologies that compensate the Glen Canyon energy and ancillary services contributions, transmission availability, and energy local marginal prices at interested grid locations of WAPA operation.",
keywords = "droughts, Glen Canyon, hydropower, production cost model, Western US power grid",
author = "{De Silva}, Thushara and Quentin Ploussard and Thomas Veselka and Jennie Jorgenson and Jerry Wilhite and Nicholas Williams and Matija Pavicevic and Rebecca Johnson and Christopher Simon",
year = "2024",
language = "American English",
series = "Presented at the Clean Currents Conference, 7-10 October 2024, Portland, Oregon",
type = "Other",
}