Energy Storage Systems: Scope, Technologies, Characteristics, Progress, Challenges, and Future Suggestions—Renewable Energy Community Perspectives

Energies, Год журнала: 2025, Номер 18(11), С. 2679 - 2679

Опубликована: Май 22, 2025

A paradigm transition from centralized to decentralized energy systems has occurred, which increased the deployment of renewable sources (RESs) in communities (RECs), promoting independence, strengthening local resilience, increasing self-sufficiency, and moving toward CO2 emission reduction. However, erratic unpredictable generation RESs like wind, solar, other make these necessary, a lot interest storage is because they have rapidly become cornerstone modern infrastructure, there trend towards using more decentralization, resulting self-sufficiency. Additionally, ESS increasingly being installed at or close point consumption, within residences, buildings, community microgrids, instead utility-scale facilities, referred be decentralized. By storing same location, this localized reduces transmission losses, facilitates quicker response changes demand, promotes autonomy management. Since production naturally spread, decentralizing crucial optimizing efficiency dependability. This article also focuses on systems, highlighting role scope ESSs along with services different parts power system network, particularly (RECs). The classification various technologies their key features, limitations, applications discussed following current technological significant information trends discussing types for RECs options as per capacity, small, medium, large scale. It covers overall scenario progress, European work relevant aspects, literature review. it draws attention gaps challenges related deployment. Key future suggestions been given that may affect those globally would helpful growth integration RECs. authors suggest government, stakeholders, supportive policies can aid implementation

Язык: Английский

Urban Energy Transition: Sustainable model simulation for social house district

Energy, Год журнала: 2024, Номер 308, С. 132611 - 132611

Опубликована: Авг. 8, 2024

Energy communities (EC) play a crucial role in driving the transition towards renewable energy sources within urban areas. This study focuses on implementation of EC linear mass housing Rome, with particular attention given to Tor Bella Monaca district. The research proposes and simulates six community distinct scenarios using Urban Modelling Interface (UMI) Simulink order advance understanding this topic. These evaluate integration photovoltaic systems, heat pumps, storage systems determine their comprehensive effect production, CO2 emission reduction, enhancement self-consumption. findings show that higher electrification levels an lead greater consumption reduced reliance grid. pumps further enhances self-sufficiency creating sustainable models environments. With increase self-consumption factor 0.15-0.30 0.11-0.13, respectively, depending scenario. highlights importance thorough assessment technology sizing enhance decrease emissions. It investigating incorporation both thermal electrical optimize Finally, simulated underwent flexibility analyses precise flow capacity optimal setting identified through economic evaluation.

Язык: Английский