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An Overview on Functional Integration of Hybrid Renewable Energy Systems in Multi-Energy Buildings

期刊

ENERGIES
卷 14, 期 4, 页码 -

出版社

MDPI
DOI: 10.3390/en14041078

关键词

renewable energy sources; renewable energy technologies; hybrid renewable energy systems; multi-energy buildings; optimization; optimal design; optimal management and control

资金

  1. ENEA [I34I19005780001]

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Buildings account for over 30% of global energy consumption and nearly 40% of CO2 emissions, emphasizing the need for rapid adoption of renewable energy technologies. Integrating renewable energy sources into residential buildings not only ensures energy balance but also offers flexibility and real-time interaction with users. Concepts such as Hybrid Renewable Energy Systems and Multi-Energy Buildings are gaining interest for optimizing interactions between various energy systems.
Buildings are responsible for over 30% of global final energy consumption and nearly 40% of total CO2 emissions. Thus, rapid penetration of renewable energy technologies (RETs) in this sector is required. Integration of renewable energy sources (RESs) into residential buildings should not only guarantee an overall neutral energy balance over long term horizon (nZEB concept), but also provide a higher flexibility, a real-time monitoring and a real time interaction with end-users (smart-building concept). Thus, increasing interest is being given to the concepts of Hybrid Renewable Energy Systems (HRES) and Multi-Energy Buildings, in which several renewable and nonrenewable energy systems, the energy networks and the energy demand optimally interact with each other at various levels, exploring all possible interactions between systems and vectors (electricity, heat, cooling, fuels, transport) without them being treated separately. In this context, the present paper gives an overview of functional integration of HRES in Multi-Energy Buildings evidencing the numerous problems and potentialities related to the application of HRESs in the residential building sector. Building-integrated HRESs with at least two RESs (i.e., wind-solar, solar-geothermal and solar-biomass) are considered. The most applied HRES solutions in the residential sector are presented, and integration of HRES with thermal and electrical loads in residential buildings connected to external multiple energy grids is investigated. Attention is focused on the potentialities that functional integration can offer in terms of flexibility services to the energy grids. New holistic approaches to the management problems and more complex architectures for the optimal control are described.

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