Buildings’ expected (projected, simulated) energy use frequently does not match actual observations. This is commonly referred to as the energy performance gap. As such, many factors can contribute to the disagreement between expectations and observations. These include, for in-stance, uncertainty about buildings’ geometry, construction, systems, and weather conditions. However, the role of occupants in the energy performance gap has recently attracted much atten-tion. It has even been suggested that occupants are the main cause of the energy performance gap. This, in turn, has led to suggestions that better models of occupant behavior can reduce the energy performance gap. The present effort aims at the review and evaluation of the evidence for such claims. To this end, a systematic literature search was conducted and relevant publications were identified and reviewed in detail. The review entailed the categorization of the studies according to the scope and strength of the evidence for occupants’ role in the energy performance gap. Moreover, deployed calculation and monitoring methods, normalization procedures, and reported causes and magnitudes of the energy performance gap were documented and evaluated. The results suggest that the role of occupants as significant or exclusive contributors to the energy performance gap is not sufficiently substantiated by evidence.
Bibliografisk noteFunding Information:
Jakob Hahn gratefully acknowledges the financial support provided by the German Federal Ministry for Economic Affairs and Energy (BMWi), promotional reference 03ET1648A (EnOB: NuData Campus). Matteo Favero would like to thank the Research Centre on Zero Emission Neigh-borhoods in Smart Cities (FME ZEN, Grant n. 257660) and the Research Council of Norway (Norges Forskingsr?det) for the support. Silke Verbruggen gratefully acknowledges the financial support received from the Research Foundation?Flanders (FWO) in the frame of the strategic basic research project S009617N. Dolaana Khovalyg and Verena Barthelmes acknowledge supporzt from the Swiss Federal Office of Energy (SFOE) as part of the project SI/501895?01. Marcel Schweiker was supported by a research grant (21055) from VILLUM FONDEN. Henrik N. Knudsen and Rune Korsholm Andersen would like to acknowledge funding by the Danish EUDP programme, project: 64 018?0558. The authors acknowledge TU Wien Bibliothek for financial support through its Open Access Funding Programme. In the writing of this paper, the authors benefited from participation and related discussions in the IEA EBC Annex 79 activities.
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