Long-term techno-economic performance monitoring to promote built environment decarbonisation and digital transformation—A case study
Long-term techno-economic performance monitoring to promote built environment decarbonisation and digital transformation—A case study
Buildings’ long-term techno-economic performance monitoring is critical for benchmarking in order to reduce costs and environmental impact while providing adequate services. Reliable building stock performance data provide a fundamental knowledge foundation for evidence-based energy efficiency interventions and decarbonisation strategies. Simply put, an adequate understanding of building performance is required to reduce energy consumption, as well as associated costs and emissions. In this framework, Variable-base degree-days-based methods have been widely used for weather normalisation of energy statistics and energy monitoring for Measurement and Verification (M & V) purposes. The base temperature used to calculate degree-days is determined by building thermal characteristics, operation strategies, and occupant behaviour, and thus varies from building to building. In this paper, we develop a variable-base degrees days regression model, typically used for energy monitoring and M & V, using a “proxy” variable, the cost of energy services. The study’s goal is to assess the applicability of this type of model as a screening tool to analyse the impact of efficiency measures, as well as to understand the evolution of performance over time, and we test it on nine public schools in the Northern Italian city of Seregno. While not as accurate as M & V techniques, this regression-based approach can be a low-cost tool for tracking performance over time using cost data typically available in digital format and can work reasonably well with limited resolution, such as monthly data. The modelling methodology is simple, scalable and can be automated further, contributing to long-term techno-economic performance monitoring of building stock in the context of incremental built environment digitalization.
Data-driven energy modelling, Data-driven methods, Energy analytics, Interpretable machine-learning, Measurement and Verification, Regression-based approaches, Techno-economic analysis
Manfren, Massimiliano
f2b8c02d-cb78-411d-aed1-c4d056365392
Tagliabue, Lavinia Chiara
30e84a7d-5ac8-47fc-9a45-10233778402a
Re Cecconi, Fulvio
63806ed2-ccbe-43ab-8994-985389bf038f
Ricci, Marco
b1fe788b-4dc7-4d04-8b62-85a92153af7c
7 January 2022
Manfren, Massimiliano
f2b8c02d-cb78-411d-aed1-c4d056365392
Tagliabue, Lavinia Chiara
30e84a7d-5ac8-47fc-9a45-10233778402a
Re Cecconi, Fulvio
63806ed2-ccbe-43ab-8994-985389bf038f
Ricci, Marco
b1fe788b-4dc7-4d04-8b62-85a92153af7c
Manfren, Massimiliano, Tagliabue, Lavinia Chiara, Re Cecconi, Fulvio and Ricci, Marco
(2022)
Long-term techno-economic performance monitoring to promote built environment decarbonisation and digital transformation—A case study.
Sustainability (Switzerland), 14 (2), [644].
(doi:10.3390/su14020644).
Abstract
Buildings’ long-term techno-economic performance monitoring is critical for benchmarking in order to reduce costs and environmental impact while providing adequate services. Reliable building stock performance data provide a fundamental knowledge foundation for evidence-based energy efficiency interventions and decarbonisation strategies. Simply put, an adequate understanding of building performance is required to reduce energy consumption, as well as associated costs and emissions. In this framework, Variable-base degree-days-based methods have been widely used for weather normalisation of energy statistics and energy monitoring for Measurement and Verification (M & V) purposes. The base temperature used to calculate degree-days is determined by building thermal characteristics, operation strategies, and occupant behaviour, and thus varies from building to building. In this paper, we develop a variable-base degrees days regression model, typically used for energy monitoring and M & V, using a “proxy” variable, the cost of energy services. The study’s goal is to assess the applicability of this type of model as a screening tool to analyse the impact of efficiency measures, as well as to understand the evolution of performance over time, and we test it on nine public schools in the Northern Italian city of Seregno. While not as accurate as M & V techniques, this regression-based approach can be a low-cost tool for tracking performance over time using cost data typically available in digital format and can work reasonably well with limited resolution, such as monthly data. The modelling methodology is simple, scalable and can be automated further, contributing to long-term techno-economic performance monitoring of building stock in the context of incremental built environment digitalization.
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sustainability-14-00644-v2
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Accepted/In Press date: 5 January 2022
Published date: 7 January 2022
Additional Information:
Publisher Copyright:© 2022 by the authors. Licensee MDPI, Basel, Switzerland.
Keywords:
Data-driven energy modelling, Data-driven methods, Energy analytics, Interpretable machine-learning, Measurement and Verification, Regression-based approaches, Techno-economic analysis
Identifiers
Local EPrints ID: 454273
URI: http://eprints.soton.ac.uk/id/eprint/454273
ISSN: 2071-1050
PURE UUID: 53e7a895-ad07-4231-90d5-dd4a5b7f543c
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Date deposited: 04 Feb 2022 17:43
Last modified: 17 Mar 2024 03:46
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Contributors
Author:
Lavinia Chiara Tagliabue
Author:
Fulvio Re Cecconi
Author:
Marco Ricci
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