Abstract
Traditionally, buildings are dependent on utility infrastructure, and when a grid failure happens, end users rely on the closest source of energy storage to sustain operation until power is restored. For buildings, that typically means using an electric generator. This electric generator either uses on-site energy storage such as fossil fuels in a tank or a gas connection which is, in turn, tied to gas wells—also a form of energy storage. Generators are popular for their ease of implementation and low capital costs; however, they have limited value outside of disruptions, and they are a source of scope 1 emissions, or direct greenhouse gas emissions from sources controlled by the building owner. In contrast, some power generation and storage systems, such as photovoltaic (PV) panels and battery energy storage systems (BESS), can serve the same purpose during grid disruptions while presenting advantages outside of power failure. This paper explores methods for storing and converting energy on-site to increase building resiliency, focusing on solutions that minimize scope 1 emissions. We analyze the cost and carbon impacts of energy efficiency measures, PV arrays, and BESS, with and without generators, in a simulation test case. We find significant benefits can be achieved both during and outside of power failure events when designing systems that integrate the on-demand capability of generators, the low carbon energy supplied by PV, and the storage capabilities of BESS. Specifically, adding even minimal BESS and PV can result in downsizing the generator, increasing generator efficiency and requiring less fuel.
Original language | American English |
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Number of pages | 17 |
State | Published - 2024 |
Event | 2024 ACEEE Summer Study on Energy Efficiency in Buildings - Pacific Grove, California Duration: 4 Aug 2024 → 9 Aug 2024 |
Conference
Conference | 2024 ACEEE Summer Study on Energy Efficiency in Buildings |
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City | Pacific Grove, California |
Period | 4/08/24 → 9/08/24 |
NREL Publication Number
- NREL/CP-5500-90265
Keywords
- energy resiliency
- energy storage
- generator
- photovoltaics