Buildings are the primary energy consumption layer of Renewable Energy Communities (RECs) and a key target for net-zero policy under the EPBD recast. This scoping review applies the PRISMA-ScR framework to map Digital Twin (DT) architectures for building-scale and community-scale energy management in REC configurations. A Scopus search yielded a final analytical corpus of 102 studies, coded through an eight-dimensional thematic matrix covering lifecycle phases, digitalization objectives, enabling technologies, DT capability dimensions, and data realism. DT is the dominant enabling technology (55.9%), followed by IoT (23.5%) and machine learning (22.5%). Research is concentrated in the Planning and Design phase (77.5%) and markedly underrepresented in Implementation and Commissioning (16.7%). Notably, only 10.8% of studies integrate real-time operational data, exposing a significant gap between simulation-based research and the deployment conditions required under current EPBD mandates. The evidence base supports building energy monitoring, demand forecasting, and flexible grid operation but remains limited for retrofit verification, standardized net-zero KPIs, and operational workflows in existing stock. Critical DT capability gaps persist in Data Services (7.8%) and User Experience (18.6%). Overall, DT architectures show genuine potential for grid-interactive, net-zero building management, yet the field presents unresolved structural challenges for large-scale real-world deployment.

Digital Twin Architectures for Energy-Efficient Buildings and Renewable Energy Communities: A Systematic Scoping Review on Monitoring, Demand Response, and Net-Zero Readiness / Cumo, F., Sforzini, V., Tiburcio, V.A.. - In: SUSTAINABILITY. - ISSN 2071-1050. - 18:12(2026), pp. 1-30. [10.3390/su18125869]

Digital Twin Architectures for Energy-Efficient Buildings and Renewable Energy Communities: A Systematic Scoping Review on Monitoring, Demand Response, and Net-Zero Readiness

Fabrizio Cumo;Valentina Sforzini;Virginia Adele Tiburcio
Primo
2026

Abstract

Buildings are the primary energy consumption layer of Renewable Energy Communities (RECs) and a key target for net-zero policy under the EPBD recast. This scoping review applies the PRISMA-ScR framework to map Digital Twin (DT) architectures for building-scale and community-scale energy management in REC configurations. A Scopus search yielded a final analytical corpus of 102 studies, coded through an eight-dimensional thematic matrix covering lifecycle phases, digitalization objectives, enabling technologies, DT capability dimensions, and data realism. DT is the dominant enabling technology (55.9%), followed by IoT (23.5%) and machine learning (22.5%). Research is concentrated in the Planning and Design phase (77.5%) and markedly underrepresented in Implementation and Commissioning (16.7%). Notably, only 10.8% of studies integrate real-time operational data, exposing a significant gap between simulation-based research and the deployment conditions required under current EPBD mandates. The evidence base supports building energy monitoring, demand forecasting, and flexible grid operation but remains limited for retrofit verification, standardized net-zero KPIs, and operational workflows in existing stock. Critical DT capability gaps persist in Data Services (7.8%) and User Experience (18.6%). Overall, DT architectures show genuine potential for grid-interactive, net-zero building management, yet the field presents unresolved structural challenges for large-scale real-world deployment.
2026
digital twin; energy-efficient buildings; building energy management; renewable energy community; net-zero emissions; demand response; retrofit; IoT; machine learning; smart homes
01 Pubblicazione su rivista::01a Articolo in rivista
Digital Twin Architectures for Energy-Efficient Buildings and Renewable Energy Communities: A Systematic Scoping Review on Monitoring, Demand Response, and Net-Zero Readiness / Cumo, F., Sforzini, V., Tiburcio, V.A.. - In: SUSTAINABILITY. - ISSN 2071-1050. - 18:12(2026), pp. 1-30. [10.3390/su18125869]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1769677
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