Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression Methodology

Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression Methodology

Interpretable and scalable data-driven methodologies providing high granularity baseline predictions of energy use in buildings are essential for the accurate measurement and verification of energy renovation projects and have the potential of unlocking considerable investments in energy efficiency...

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Bibliographic Details
Main Authors: Benedetto Grillone, Gerard Mor, Stoyan Danov, Jordi Cipriano, Florencia Lazzari, Andreas Sumper
Format: Article
Language:English
Published: MDPI AG 2021-09-01
Series:Energies
Subjects:
Bayesian
baseline
energy
efficiency
probabilistic
uncertainty
Online Access:https://www.mdpi.com/1996-1073/14/17/5556
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spelling doaj-b76e64673b214e4a9a7051e9c13bc0202021-09-09T13:44:00ZengMDPI AGEnergies1996-10732021-09-01145556555610.3390/en14175556Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression MethodologyBenedetto Grillone0Gerard Mor1Stoyan Danov2Jordi Cipriano3Florencia Lazzari4Andreas Sumper5Building Energy and Environment Group, Centre Internacional de Mètodes Numèrics a l’Enginyeria, GAIA Building (TR14), Rambla Sant Nebridi 22, 08222 Terrassa, SpainBuilding Energy and Environment Group, Centre Internacional de Mètodes Numèrics a l’Enginyeria, CIMNE-Lleida, Pere de Cabrera 16, Office 2G, 25001 Lleida, SpainBuilding Energy and Environment Group, Centre Internacional de Mètodes Numèrics a l’Enginyeria, GAIA Building (TR14), Rambla Sant Nebridi 22, 08222 Terrassa, SpainBuilding Energy and Environment Group, Centre Internacional de Mètodes Numèrics a l’Enginyeria, CIMNE-Lleida, Pere de Cabrera 16, Office 2G, 25001 Lleida, SpainBuilding Energy and Environment Group, Centre Internacional de Mètodes Numèrics a l’Enginyeria, CIMNE-Lleida, Pere de Cabrera 16, Office 2G, 25001 Lleida, SpainCentre d’Innovació Tecnològica en Convertidors Estàtics i Accionaments (CITCEA-UPC), Departament d’Enginyeria Elèctrica, ETS d’Enginyeria Industrial de Barcelona, Universitat Politècnica de Catalunya, 08028 Barcelona, SpainInterpretable and scalable data-driven methodologies providing high granularity baseline predictions of energy use in buildings are essential for the accurate measurement and verification of energy renovation projects and have the potential of unlocking considerable investments in energy efficiency worldwide. Bayesian methodologies have been demonstrated to hold great potential for energy baseline modelling, by providing richer and more valuable information using intuitive mathematics. This paper proposes a Bayesian linear regression methodology for hourly baseline energy consumption predictions in commercial buildings. The methodology also enables a detailed characterization of the analyzed buildings through the detection of typical electricity usage profiles and the estimation of the weather dependence. The effects of different Bayesian model specifications were tested, including the use of different prior distributions, predictor variables, posterior estimation techniques, and the implementation of multilevel regression. The approach was tested on an open dataset containing two years of electricity meter readings at an hourly frequency for 1578 non-residential buildings. The best performing model specifications were identified, among the ones tested. The results show that the methodology developed is able to provide accurate high granularity baseline predictions, while also being intuitive and explainable. The building consumption characterization provides actionable information that can be used by energy managers to improve the performance of the analyzed facilities.https://www.mdpi.com/1996-1073/14/17/5556Bayesianbaselineenergyefficiencyprobabilisticuncertainty
collection DOAJ
language English
format Article
sources DOAJ
author Benedetto Grillone
Gerard Mor
Stoyan Danov
Jordi Cipriano
Florencia Lazzari
Andreas Sumper
spellingShingle Benedetto Grillone
Gerard Mor
Stoyan Danov
Jordi Cipriano
Florencia Lazzari
Andreas Sumper
Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression Methodology
Energies
Bayesian
baseline
energy
efficiency
probabilistic
uncertainty
author_facet Benedetto Grillone
Gerard Mor
Stoyan Danov
Jordi Cipriano
Florencia Lazzari
Andreas Sumper
author_sort Benedetto Grillone
title Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression Methodology
title_short Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression Methodology
title_full Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression Methodology
title_fullStr Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression Methodology
title_full_unstemmed Baseline Energy Use Modeling and Characterization in Tertiary Buildings Using an Interpretable Bayesian Linear Regression Methodology
title_sort baseline energy use modeling and characterization in tertiary buildings using an interpretable bayesian linear regression methodology
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-09-01
description Interpretable and scalable data-driven methodologies providing high granularity baseline predictions of energy use in buildings are essential for the accurate measurement and verification of energy renovation projects and have the potential of unlocking considerable investments in energy efficiency worldwide. Bayesian methodologies have been demonstrated to hold great potential for energy baseline modelling, by providing richer and more valuable information using intuitive mathematics. This paper proposes a Bayesian linear regression methodology for hourly baseline energy consumption predictions in commercial buildings. The methodology also enables a detailed characterization of the analyzed buildings through the detection of typical electricity usage profiles and the estimation of the weather dependence. The effects of different Bayesian model specifications were tested, including the use of different prior distributions, predictor variables, posterior estimation techniques, and the implementation of multilevel regression. The approach was tested on an open dataset containing two years of electricity meter readings at an hourly frequency for 1578 non-residential buildings. The best performing model specifications were identified, among the ones tested. The results show that the methodology developed is able to provide accurate high granularity baseline predictions, while also being intuitive and explainable. The building consumption characterization provides actionable information that can be used by energy managers to improve the performance of the analyzed facilities.
topic Bayesian
baseline
energy
efficiency
probabilistic
uncertainty
url https://www.mdpi.com/1996-1073/14/17/5556
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AT stoyandanov baselineenergyusemodelingandcharacterizationintertiarybuildingsusinganinterpretablebayesianlinearregressionmethodology
AT jordicipriano baselineenergyusemodelingandcharacterizationintertiarybuildingsusinganinterpretablebayesianlinearregressionmethodology
AT florencialazzari baselineenergyusemodelingandcharacterizationintertiarybuildingsusinganinterpretablebayesianlinearregressionmethodology
AT andreassumper baselineenergyusemodelingandcharacterizationintertiarybuildingsusinganinterpretablebayesianlinearregressionmethodology
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