Comparing energy and comfort metrics for building benchmarking
Item
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Title
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Comparing energy and comfort metrics for building benchmarking
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Description
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Benchmarking energy use is increasingly mandated and tied to consequences such as fines for underperforming buildings. Yet, standard benchmarking methods and metrics may not adequately align with policymakers’ or building owners’ goals. We demonstrate how benchmarking metrics are non-interchangeable and how they can lead to substantially different building rankings. We analyze the performance of 29 case study buildings using different methods and metrics, divided into three categories: simple energy benchmarking, regression, and comfort. We find that Energy Use Intensity (EUI) serves as a poor proxy for harder-to-measure but more meaningful metrics. For example, factoring in the number of occupants (“EUI per person” rather than EUI) changes a building's ranking in our group by 24%. We demonstrate how a custom regression analysis and the “Observed-to-modeled” ratio can be useful for large-portfolio building owners, and how this differs from available benchmarking tools like Energy Star. We benchmark a subset of buildings via reported and monitored comfort factors and, importantly, propose the metrics “Overheating/cooling Degree Days”. These metrics measure discomfort relative to a building's operation mode and highlight cases of energy waste. The Overheating Degree Days metric highlighted operational problems in one case study building.
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Accepted Manuscript
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Creator
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Estrella Guillen, Esteban
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Samuelson, Holly
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Cedeno Laurent, Jose Guillermo
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Date
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2022-09-26T10:19:25Z
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2019-12
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2022-09-26T10:19:25Z
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Type
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Journal Article
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Format
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application/pdf
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Identifier
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Estrella Guillen, Esteban, Holly Samuelson, Jose Guillermo Cedeno Laurent. "Comparing energy and comfort metrics for building benchmarking." Energy and Buildings 205 (2019): 109539. DOI: 10.1016/j.enbuild.2019.109539
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0378-7788
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https://nrs.harvard.edu/URN-3:HUL.INSTREPOS:37373267
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10.1016/j.enbuild.2019.109539
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Language
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en_US
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Relation
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Energy and Buildings