Full Citation
Title: Magnitude and Distribution of the Untapped Solar Space-Heating Resource in U.S. Climates
Citation Type: Journal Article
Publication Year: 2021
ISBN:
ISSN: 18790690
DOI: 10.1016/J.RSER.2021.111599
NSFID:
PMCID:
PMID:
Abstract: Space heating is the single greatest source of building-related greenhouse gas emissions in the industrialized world, giving urgency to the development of strategies for carbon-free heating. Recent advances have shown that the direct capture, storage, and deployment of solar energy, without conversion to electricity, has considerable potential to address space-heating needs even in cold and cloudy climates. However, the solar energy available for direct heating at climatic and metropolitan scales is both unquantified and widely assumed to be negligible, impeding further investigation, development, and policy responses. To estimate the magnitude and distribution of solar resources concurrent with space-heating needs, we spatially integrate datasets characterizing solar radiation, outdoor temperature, and heating energy use across U.S. climates. Results show that the median resource incident upon collectors of residential scale (10m2) and distribution is much greater than previously realized, equaling 7MWh per household annually; by comparison, the median household heating need is currently 10.3MWh. Unexpectedly, cloud-diffused solar radiation accounts for over one-quarter of this resource in all but semi-arid climates. Metropolitan residential resources exceed 5TWh in areas including Detroit and Boston (cold continental), WashingtonD.C. (humid subtropical), Seattle and San Francisco (Mediterranean), and Denver (semi-arid), and national resources exceed 750TWh annually, compared to approximately 1200TWh of annual heating need. Current technology is able to capture and retain over half of a direct solar heating resource, revealing that the untapped U.S. solar heating potential is comparable to one-third of the national residential space-heating need and implying that analogous resources exist in analogous climates worldwide.
Url: https://www.sciencedirect.com/science/article/pii/S1364032121008753
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Authors: Rempel, A. R.; Rempel, A. W.; McComas, S. M.; Duffey, S.; Enright, C.; Mishra, S.
Periodical (Full): Renewable and Sustainable Energy Reviews
Issue:
Volume: 151
Pages: 1-14
Data Collections: IPUMS NHGIS
Topics: Natural Resource Management
Countries: