Renewable Energy Communities (RECs) are increasingly recognized as decentralized energy systems capable of improving renewable energy integration, enhancing local self-consumption, and supporting the transition toward low-carbon energy infrastructures. However, the effective deployment of RECs still faces significant challenges related to the integration of spatial analysis, energy modelling, operational optimization, and socio-economic assessment within a unified framework. This study investigates an integrated multi-objective framework for the design, evaluation, and operational support of RECs through the combination of geospatial analysis, energy performance modelling, and digital decision-support tools developed within the ENEA Smart Energy Communities (SEC) platform. The proposed methodology was developed by integrating spatially explicit territorial datasets, renewable resource assessments, electricity demand profiles, and multidimensional key performance indicators (KPIs) within a coordinated analytical framework. Three complementary tools were implemented and evaluated: the geoCER geoportal for territorial-scale renewable energy planning and REC scenario modelling, the DHOMUS platform for residential load monitoring and self-consumption optimization, and the Local Token Economy (LTE) system for token-based user engagement and energy-aware behavioral incentives. The results showed that the integrated framework effectively supported the assessment of REC configurations under different territorial and operational conditions. In the Anguillara Sabazia case study, the REC configuration increased the Self-Consumption Index (SCI) from 30% to 65% and the Self-Sufficiency Index from 36% to 79%, while reducing the Energy Surplus Index from 70% to 35%. In the Sardinia case study, the scenario-based analysis demonstrated that renewable energy integration and coordinated energy sharing significantly improved territorial self-sufficiency under optimized REC configurations. The geospatial modelling approach also enabled the identification of suitable renewable deployment scenarios while considering environmental and territorial constraints. The results indicate that the integration of energy modelling, digital monitoring systems, and spatially explicit planning tools provides an effective pathway for improving the operational performance, flexibility, and scalability of RECs. The proposed framework offers practical support for decentralized energy planning, distributed renewable energy management, and data-driven decision-making processes in future community-based energy systems.

This study addresses the growing role of Renewable Energy Communities (RECs) in supporting decentralized renewable energy integration and improving local energy self-sufficiency within the European energy transition framework. The work aimed to evaluate the technical and economic feasibility of a municipal REC in Pattada, a small municipality located in Sardinia, Italy, through an energy balance analysis based on distributed photovoltaic generation and shared electricity consumption. A techno-economic assessment framework was developed by combining the estimated electricity production of municipally owned photovoltaic systems with the load profiles of municipal, commercial, and residential users participating in the REC. The photovoltaic energy production was estimated using the Photovoltaic Geographical Information System (PVGIS) simulation platform, while the shared energy within the REC was evaluated by considering the simultaneity between electricity generation and demand under different residential participation scenarios. The results showed that the municipal photovoltaic systems achieved an annual electricity production of approximately 506.41 MWh, while direct physical self-consumption remained limited to 3.10 MWh/year due to the mismatch between municipal demand and photovoltaic generation profiles. The analysis further showed that the REC reached an energy equilibrium condition with the participation of 285 residential users, corresponding to nearly 23% of the households within the municipality, allowing virtually shared energy to reach 425.92 MWh/year. The economic evaluation demonstrated that the municipal administration obtained the highest share of the overall economic return, mainly driven by electricity exported to the grid and incentive revenues associated with shared energy. The results indicate that the integration of municipally owned photovoltaic systems within REC configurations provides an effective approach for improving local energy sharing and enhancing the economic viability of distributed renewable energy systems in small municipalities. The proposed framework offers practical support for local administrations in planning renewable energy investments and optimizing REC configurations under real operating conditions.

Sawahlunto City is highly vulnerable to landslides due to steep topography, unstable soil conditions, and the legacy of former mining activities. These conditions pose risks not only to settlements and infrastructure but also to environmental sustainability. This study aims to analyze local government strategies in landslide disaster mitigation using James Brian Quinn’s strategic framework, focusing on goals, policies, and programs. This research employs a qualitative approach with data collected through interviews, observation, and document analysis. This study involved 15 key informants selected through purposive sampling, consisting of Regional Disaster Management Agency (Badan Penanggulangan Bencana Daerah, BPBD) officials, regional apparatus organizations, and local government representatives. Additional triangulation was conducted with community-based and external actors such as Disaster Resilient Village (Desa Tangguh Bencana, Destana), Disaster Preparedness Cadets (Taruna Siaga Bencana, Tagana), Tsunami Alert Community (Komunitas Siaga Tsunami, KOGAMI), Jemari Sakato, and BPBD of West Sumatra Province. Data were collected between December 2024 and January 2025 through interviews, field observations, and document analysis, and analyzed using data reduction, categorization, and thematic interpretation based on strategic dimensions. The findings indicate that although BPBD Sawahlunto has established strategic planning documents such as Disaster Risk Assessment (Kajian Risiko Bencana, KRB), Disaster Management Plan (Rencana Penanggulangan Bencana, RPB), and Contingency Plans (Rencana Kontinjensi, Rekon), their implementation remains constrained by limited budget and human resources. Programs such as Destana and Disaster Safe Education Unit (Satuan Pendidikan Aman Bencana, SPAB) contribute positively to community preparedness, although their coverage is still limited. The study concludes that strengthening inter-agency coordination, optimizing resources, and enhancing community participation are essential to improve the effectiveness and sustainability of landslide mitigation strategies in Sawahlunto City.