A review of deterministic and data-driven methods to quantify energy efficiency savings and to predict retrofitting scenarios in buildings

A review of deterministic and data-driven methods to quantify energy efficiency savings and to predict retrofitting scenarios in buildings

Increasing the energy efficiency of the built environment has become a priority worldwide and especially in Europe. Because of the relatively low turnover rate of the existing built environment, energy efficiency retrofitting appears to be a fundamental step in reducing its energy consumption. Last...

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Bibliographic Details
Published in:Renewable & sustainable energy reviews 2020-10, Vol.131, p.110027, Article 110027
Main Authors: Grillone, Benedetto, Danov, Stoyan, Sumper, Andreas, Cipriano, Jordi, Mor, Gerard
Format: Article
Language:eng
Subjects:
Building energy retrofitting
Data driven approach
Energy performance improvement
Energy savings evaluation
Measurement and verification
Retrofitting decision support
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Summary:Increasing the energy efficiency of the built environment has become a priority worldwide and especially in Europe. Because of the relatively low turnover rate of the existing built environment, energy efficiency retrofitting appears to be a fundamental step in reducing its energy consumption. Last experiences have shown that there is a vast energy efficiency potential lying in the building stock, and it is mainly untapped. One of the reasons is a lack of robust methodologies able to evaluate the effect of applied energy efficiency measures and inform about the expected impact of potential retrofitting strategies. Nowadays, dynamic measured data coming from automated metering infrastructure provides valuable information to evaluate the effect of energy conservation strategies. For this reason, energy performance modeling and assessment methods based on this data are starting to play a major role. In this paper, several methodologies for the measurement and verification of energy savings, and for the prediction and recommendation of energy retrofitting strategies, are analysed in detail. Practitioners looking at different options for these two processes, will find in this review a thorough and detailed overview of the different methods that can be used. Guidance is also provided to determine which method could work best depending on the specific case under analysis. The reviewed approaches include statistical learning models, machine learning models, Bayesian methods, deterministic approaches, and hybrid techniques that combine deterministic and data-driven modeling. Existing research gaps are identified and prospects for future investigation are presented within the main conclusions of this research work. •Novel techniques to estimate energy efficiency savings in buildings were reviewed.•Techniques to plan energy retrofitting strategies in buildings were reviewed.•The focus is on data-driven methods (statistical, machine learning, Bayesian).•Strengths and weaknesses of every method are analysed.•Research gaps and prospects for future investigation are presented.
ISSN:1364-0321
1879-0690