U.S. Building Energy Efficiency and Flexibility as an Electric Grid Resource

Political Economy - Development: Public Service Delivery eJournal Pub Date : 2021-01-15 DOI:10.2139/ssrn.3767157

Jared Langevin, C. Harris, Aven Satre-Meloy, Handi Chandra Putra, Andrew Speake, Elaina K Present, R. Adhikari, E. Wilson, Andrew J. Satchwell

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引用次数: 53

Abstract

Buildings consume 75% of U.S. electricity; therefore, improving the efficiency and flexibility of building operations could increase the reliability and resilience of the rapidly-changing electricity system. We estimate the technical potential near- and long-term impacts of best available building efficiency and flexibility measures on annual electricity use and hourly demand across the contiguous U.S. Co-deployment of building efficiency and flexibility avoids up to 742 TWh of annual electricity use and 181 GW of daily net peak load in 2030, rising to 800 TWh and 208 GW by 2050; at least 59 GW and 69 GW of the peak reductions are dispatchable. Implementing efficiency measures alongside flexibility measures reduces the potential for off-peak load increases, underscoring limitations on load shifting in efficient buildings. Overall, however, we find a substantial building-grid resource that could reduce future fossil-fired generation needs while also reducing dependence on energy storage with increasing variable renewable energy penetration.

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作为电网资源的美国建筑能源效率和灵活性

建筑物消耗了美国75%的电力;因此，提高建筑运行的效率和灵活性可以增加快速变化的电力系统的可靠性和弹性。我们估计，最佳可用建筑效率和灵活性措施对美国各地年用电量和小时需求的近期和长期技术潜力。2030年，建筑效率和灵活性的共同部署可避免高达742太瓦时的年用电量和181吉瓦的日净峰值负荷，到2050年将增加到800太瓦时和208吉瓦;至少59吉瓦和69吉瓦的峰值削减是可调度的。实施效率措施和灵活性措施减少了非高峰负荷增加的可能性，强调了高效建筑中负荷转移的局限性。然而，总的来说，我们发现了大量的建筑电网资源，可以减少未来的化石燃料发电需求，同时也可以通过增加可变可再生能源的渗透来减少对能源储存的依赖。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Political Economy - Development: Public Service Delivery eJournal

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