@misc{3e12b06a46bf4541a82715dd2ddaf4bc,
title = "Assessing the Viability of Geothermal Microgrid Deployment: A Geospatial Analysis Across the United States",
abstract = "Geothermal microgrids hold a potential of supplying clean and dependable power to communities throughout the United States (US), all while sidestepping the expenses associated with connecting to strained or isolated power grids. Nonetheless, their implementation is still in its early stages in the country. The objective of this analysis is to leverage available data to pinpoint regions across the US that exhibit favorable conditions for the development of geothermal microgrids. Drawing from a variety of sources, including estimates of geothermal resources, the costs associated with geothermal energy generation and electricity transmission, existing microgrid locations, and subsidy programs, we aim to identify promising areas for further exploration. By mapping out the contiguous US, Alaska, and Hawaii, we delineate regions with high relative favorability for geothermal microgrid deployment. Our findings reveal the presence of highly favorable regions across the Western states of the contiguous US, as well as isolated areas in Alaska and Hawaii. Furthermore, we delve into a discussion on state policies and incentive programs, considering their role in fostering favorable conditions or posing barriers to geothermal microgrid development.",
keywords = "Alaska, communities, geothermal, Hawaii, microgrid, power grids",
author = "Erik Witter and Jayaraj Rane and Dayo Akindipe and Faith Smith",
year = "2024",
language = "American English",
series = "Presented at the 2024 Geothermal Rising Conference, 27-30 October 2024, Waikoloa, Hawaii",
publisher = "National Renewable Energy Laboratory (NREL)",
address = "United States",
type = "Other",
}